Item 1. Business.
Corporate History and Background
The original QuantumScape Corporation, now named QuantumScape Battery, Inc. (“Legacy QuantumScape”), a wholly owned subsidiary of the Company, was founded in 2010 with the mission to revolutionize energy storage to enable a sustainable future.
On November 25, 2020 (the “Closing Date”), Kensington Capital Acquisition Corp. (“Kensington”), a special purpose acquisition company, consummated the Business Combination Agreement (the “Business Combination Agreement”) dated September 2, 2020, by and among Kensington, Kensington Merger Sub Corp., a Delaware corporation and wholly owned subsidiary of Kensington (“Merger Sub”), and Legacy QuantumScape.
Pursuant to the terms of the Business Combination Agreement, a business combination between Kensington and Legacy QuantumScape was effected through the merger of Merger Sub with and into Legacy QuantumScape, with Legacy QuantumScape surviving as the surviving company and as a wholly-owned subsidiary of Kensington (the “Merger” and, collectively with the other transactions described in the Business Combination Agreement, the “Business Combination”). On the Closing Date, Kensington changed its name to QuantumScape Corporation.
Overview
QuantumScape is developing next generation battery technology for electric vehicles (“EVs”) and other applications.
We are at the beginning of a forecasted once-in-a-century shift in automotive powertrains, from internal combustion engines to clean EVs. After 30 years of gradual improvements in conventional lithium-ion batteries, the benefits of EVs have been demonstrated, principally in the premium passenger car market. However, there are fundamental limitations inhibiting widespread adoption of battery technology, and we believe the automotive market needs a step change in battery technology to make mass market EVs competitive with the fossil fuel alternative.
We have spent over a decade developing a proprietary solid-state battery technology to meet this challenge. QuantumScape’s lithium-metal solid-state battery technology is being designed to offer greater energy density, faster charging, and enhanced safety when compared to today’s conventional lithium-ion batteries. We believe no other lithium-metal battery technology has demonstrated the capability of achieving automotive rates of power (power is the rate at which a battery can be charged and discharged) with acceptable battery life, at room temperature and modest levels of pressure (approximately 3 to 4 atm).
Since 2012, we have developed a strong partnership with Volkswagen Group of America Investments, LLC (“VGA”) and certain of its affiliates (together with VGA, “Volkswagen”). Volkswagen is one of the largest car companies in the world and intends to be a leader in EVs. Over the last ten years Volkswagen has invested a total of more than $300 million in us and has established a 50-50 joint venture (“JV”) with us to enable an industrial level of production of our solid-state batteries. As 50-50 partners in the joint venture with Volkswagen, we expect to share equally in the revenue and profit from the joint venture. Over the course of our relationship, Volkswagen has successfully tested multiple early generations of certain of our single-layer and multi-layer laboratory cells at automotive rates of power.
While we expect Volkswagen will be the first to commercialize vehicles using our battery technology, we are, and over the next few years, intend to continue, working closely with other automotive original equipment manufacturers (“OEMs”) to make our solid-state battery cells widely available over time. Subject to the terms of the JV arrangements with Volkswagen, we are not prohibited from working in parallel with other automotive OEMs or other non-automotive companies to commercialize our technology. As of December 31, 2022, we have customer sampling agreements with five other OEMs to collaborate with us in the testing and validation of our solid-state battery cells, with the goal of providing such cells to the OEMs for inclusion into pre-production prototype vehicles. These OEMs range from top ten manufacturers by global revenue to premium performance and luxury carmakers; additionally, they include both traditional and pure play EV companies. We are currently focused on automotive EV applications, which have among the most stringent sets of requirements for batteries. However, we recognize that our solid-state battery technology has applicability in other large and growing markets including stationary storage and consumer electronics, such as smartphones and wearables and intend to explore opportunities in those areas as appropriate.
In 2021, we announced our plans to build up our manufacturing capability with the addition of a pre-pilot production line (“QS-0”) in California. QS-0 is intended to have a continuous flow, high automation line with sufficient capacity and process maturity to engage in automotive qualification and if successful, provide first commercialization via the production of C-sample battery cells made available for sale to a third party. We secured a long-term lease in April 2021 for QS-0. QS-0 is intended to be followed by a 1GWh pilot-production line (“QS-1”), and subsequently expansion to the full 21GWh target (“QS-1 Expansion”).
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Our development uses earth-abundant materials and processes suitable for high volume production. Our processes use equipment which is already used at scale in the battery or ceramics industries. Outside of the separator, our battery is being designed to use many generally available materials and processes that are standard across today’s battery manufacturers. As a result, we expect to benefit from the projected industry-wide cost declines for these materials that result from process improvements and economies of scale. We believe that the manufacturing of our solid-state battery cells provides us with a structural cost advantage because our battery cells are manufactured without an anode.
Industry Background
Shift to EVs
We believe that evolving consumer preferences coupled with growing government incentives and regulations are driving a once-in-a-century shift to EVs.
Countries around the world are promoting EVs. The dependence on gasoline-powered internal combustion engine (“ICE”) vehicles has heightened environmental concerns, created reliance among industrialized and developing nations on large oil imports, and exposed consumers to unstable fuel prices and health concerns related to heightened emissions. Many national and regional regulatory bodies have adopted legislation to incentivize or require a shift to lower-emission and zero-emission vehicles. For example, over a dozen countries including the United Kingdom, the Netherlands, Sweden, Germany, France and Norway have announced intentions to either increase applicable environmental targets or outright ban the sale of new ICE vehicles in the next two decades. In 2022, the California Air Resources Board (CARB) approved the regulation that establishes a year-by-year roadmap so that by 2035 100% of new cars and light trucks sold in California are required to be zero-emission vehicles. Also in 2022, the European Union approved an effective ban on the sale of new petrol and diesel cars from 2035. This global push to transition from ICE vehicles, aided by favorable government incentives and regulations, is accelerating the growth in lower- and zero-emission vehicle markets.
Furthermore, consumers are increasingly considering EVs for a variety of reasons including better performance, growing EV charging infrastructure, significantly lighter environmental impact, and lower maintenance and operating costs. Automakers such as Tesla, Inc. have demonstrated that premium EVs can deliver a compelling alternative to fossil fuels. As EVs become more competitive and more affordable, we believe that they will continue to take market share from ICE vehicles. We believe that this shift will occur across vehicle types and market segments. However, the inherent limitations of lithium-ion battery technology continue to impede improvements in EV competitiveness on range and chagrining times compared with ICE vehicles.
Current Battery Technology Will Not Meet the Requirements for Broad Adoption of EVs
Despite the significant progress in the shift to EVs, the market remains dominated by ICE vehicles. According to The Wall Street Journal, approximately 10% of global car sales in 2022 were electrified. For EVs to be adopted at scale across market segments batteries need to improve. In particular, we believe there are five key requirements to drive broad adoption of EVs:
•Battery capacity (energy density). EVs need to be able to drive over 300 miles on a single charge to be competitive with ICE vehicles and achieve broad market adoption. The space required for conventional lithium-ion battery technology limits the range of many EVs. Higher energy density will enable automotive OEMs to increase battery pack energy without increasing the size and weight of the vehicle’s battery pack.
•Fast charging capability. EV batteries need to be fast-charging to replicate the speed and ease with which a gasoline car can be refueled. We believe this objective is achieved with the ability to charge from 10% to 80% capacity in approximately 15 minutes or less, faster than today’s conventional batteries can deliver without materially degrading life.
•Safety (nonflammable). EV batteries need to replace as many of the flammable components in the battery as possible with non-flammable equivalents to reduce the extent of damage caused by a fire. With current batteries, many abuse conditions can result in fires, for example malfunctions that can result in overcharges and battery damage from accidents.
•Battery cycle life. Batteries need to be usable for the life of the vehicle, typically 12 years or 150,000 miles. If the battery fades prematurely, EVs will not be an economically practical alternative.
•Cost. Mass market adoption of EVs requires a battery that is capable of delivering long range while remaining cost competitive with a vehicle price point of around $30,000.
Since these requirements have complex interlinkages, most manufacturers of conventional lithium-ion batteries used in today’s cars are forced to make trade-offs. For example, conventional batteries can be fast-charged, but at the cost of adversely impacting their battery life.
We believe that a battery technology that can meet these requirements will enable an EV solution that is much more broadly competitive with ICE. According to the Organisation Internationale des Constructeurs d’Automobiles, more than 80 million ICE vehicles were produced in 2021 across the auto industry, representing a significant untapped demand for a battery that meets these requirements.
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Limitations of Conventional Lithium-ion Battery Technologies
The last significant development in battery technology was the commercialization of lithium-ion batteries in the early 1990s which created a new class of batteries with higher energy density. Lithium-ion batteries have enabled a new generation of mobile electronics, efficient renewable energy storage, and the start of the transition to electrified mobility.
Since the 1990s, conventional lithium-ion batteries have gradually improved in energy density. Most increases in energy density have come from improved cell design and incremental improvements in cathode and anode technology. However, there is no Moore’s law in batteries—it has taken conventional lithium-ion batteries at least 10 years to double in energy density and it has been approximately 30 years since the introduction of a major new chemistry. As the industry approaches the theoretical limit of achievable energy density for lithium-ion batteries, we believe a new architecture is required to deliver meaningful gains in energy density.
Batteries have a cathode (the positive electrode), an anode (the negative electrode), a separator which prevents contact between the anode and cathode, and an electrolyte which transports ions but not electrons. A conventional lithium-ion battery (as shown in the figure below) uses a liquid electrolyte, a polymer separator, and an anode made principally of carbon (graphite) or a carbon/silicon composite. Lithium ions move from the cathode to the anode when the battery is charged and vice versa during discharge.
Conventional Lithium-Ion Battery Design
In a fully-discharged lithium-ion cell, the lithium in the cell resides in the cathode. When the cell is charged, lithium ions move from the cathode to the anode, where they diffuse into the carbon particles that make up the anode. In the fully charged state, the lithium ions sit in the anode. When the battery is discharged, these lithium ions are allowed to move back from the anode to the cathode, and in the process, energy can be extracted from the system.
One limit to the energy density of conventional lithium-ion batteries is imposed by the anode, which provides a host material made of carbon (graphite) and/or silicon to hold the lithium ions, preventing them from binding together into pure metallic lithium. Metallic lithium, when used with conventional liquid electrolytes and porous separators, can form growths of lithium known as dendrites, which can penetrate through the separator and short-circuit the cell.
While using a host material in the anode is an effective way to prevent dendrites, this host material adds volume and mass to the cell, adds cost to the battery, and limits the battery life due to side reactions at the interface with the liquid electrolyte. The rate at which lithium diffuses through the anode also limits the maximum cell power.
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The addition of silicon to a carbon anode provides a modest boost to energy density relative to a pure carbon anode. However, silicon is a host material that not only suffers from the limitations of carbon as discussed above, but also introduces cycle life challenges as a result of the repeated expansion and contraction of the silicon particles, since silicon undergoes significantly more expansion than carbon when hosting lithium ions. Furthermore, the voltage of the lithium-silicon reaction subtracts from the overall cell voltage, reducing cell energy.
Lithium-Metal Anode Required to Unlock Highest Energy Density
We believe that a lithium-metal anode is the most promising approach that can break out of the constraints inherent in conventional lithium-ion batteries and enable significant improvements in energy density.
In a lithium-metal battery, the anode is made of metallic lithium; there is no host material. Eliminating the host material reduces the size and weight of the battery cell and eliminates the associated materials and manufacturing costs. This results in the highest theoretical gravimetric energy density for a lithium-based battery system if the system can be manufactured without excess lithium on the anode. Lithium-ion batteries currently used in the auto industry have energy densities of less than 300 Wh/kg. We believe lithium-metal batteries have the potential to achieve significantly higher energy density.
Lithium-metal anodes are generally compatible with conventional cathode materials, and lithium-metal batteries will derive some benefit from continued improvement in conventional cathode materials. Moreover, lithium-metal anodes may enable future generations of higher energy cathodes, such as the metal fluorides, that may not achieve significant energy density gains when used with lithium-ion anodes, as shown in the figure below.
Modeled Cell Specific Energy
Source: Andre et al, J Mater Chem A, (2015) 6709
Note: Modeled cell specific energy is based on traditional cell designs and architectures.
Although the industry has understood for over 40 years the potential benefits of lithium-metal anodes, the industry has not been able to develop a separator that makes a lithium-metal anode practical for rechargeable applications.
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Solid-State Separator Required to Enable Lithium-Metal Anode
We believe that a lithium-metal battery requires that the porous separators used in conventional lithium-ion batteries be replaced with a solid-state separator capable of conducting lithium ions between the cathode and anode at rates comparable to conventional liquid electrolyte while also suppressing the formation of lithium dendrites, which are growths of lithium metal which can grow across the separator and short-circuit the cell. While various solid-state separators have been shown to operate at low power densities, such low power densities are not useful for most practical applications. To our best knowledge, we are the only company that has been able to demonstrate a solid-state separator for lithium-metal batteries capable of resisting dendrite formation at higher power densities, such as those required for automotive applications and fast-charging, for at least 800 cycles at around 25°C.
We believe that our ability to develop this proprietary solid-state separator will enable the shift from lithium-ion to lithium-metal batteries.
Our Technology
Our proprietary solid-state lithium-metal cell represents the next-generation of battery technology.
Our battery cells have none of the host materials used in conventional anodes. In fact, when our cells are manufactured there is no anode. When the cell is first charged, lithium moves out of the cathode, diffuses through our solid-state separator and plates in a thin metallic layer directly on the anode current collector, forming an anode. When the battery cell is discharged, the lithium diffuses back into the cathode.
Eliminating the anode host material found in conventional lithium-ion cells increases the volumetric energy density. A pure lithium-metal anode also enables the theoretically highest gravimetric energy density for a lithium battery system, if the system can be manufactured without excess lithium on the anode.
Our proprietary solid-state separator is the core technology breakthrough that enables reliable cycling of the lithium-metal anode battery. Without a working solid-state separator, the lithium would form dendrites which would grow through a traditional porous separator and short circuit the cell.
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An effective solid-state separator requires a solid material that has conductivity in a range similar to liquid electrolytes, chemically stable next to lithium— one of the most reactive elements — and able to resist the formation of dendrites. Our team worked over ten years to develop a composition that meets these requirements and to develop the techniques necessary to manufacture the separator material at scale using a continuous process. We have a number of patents covering both the composition of this material and key steps of the manufacturing process.
Our Material and Cell
Our solid-state separator is a dense, entirely inorganic ceramic. As shown in the figure above, it is made into a film that is thinner than a human hair and then cut into pieces roughly the size of a playing card. Our solid-state separator is flexible because it has a low defect density and is thin. In contrast, typical household ceramics are less flexible and can break due to microscopic defects which reduce structural integrity.
The separator is placed between a cathode and anode current collector to form a single battery cell layer, as shown by the single layer pouch cell in the graphic above. Our single-layer solid-state cells have been tested for power density, cycle life and temperature performance. This is the only solid-state technology we are aware of that is capable of simultaneously satisfying what we believe are the key requirements for automotive commercial usage (at least 800 cycles while maintaining at least 80% energy retention, 100% depth of discharge, 1C/1C rates, <30°C temperature, <4 atm pressure) and that has been validated by independent testing.
Data from our testing of single-layer battery cells shows that unlike previous solid-state efforts, our solid-state separators can work at high rates of power, with the ability to charge from 10% to 80% capacity in approximately 15 minutes or less, faster than today’s conventional batteries can deliver without materially degrading life. We also presented data showing our single-layer battery cell can work at a wide range of temperatures, including results that show cycling at –10°C.
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The basic building block of our designed battery package is the bilayer cell, consisting of a double-sided cathode with a separator on either side. We stack these bilayer cells together to form multi-layer cells. Our form factor for EV batteries is targeted to be roughly the size of a deck of cards.
Multi-Layer Progress
Depending upon our potential customers' requirements, our battery cell will require several dozen layers within each battery package. We have not yet built a complete multi-layer solid-state battery cell in the dimensions required for automotive applications but have announced the results of our single-layer, and multi-layer cells in commercially relevant areas, and in 2022, shipped 24-layer A0 prototype battery cells to multiple automotive OEMs for testing.
We need more production capacity to make the large number of multi-layer cells needed for testing and for process optimization, including yield improvement and reliability. We have ordered and continue to order new automation and high-volume equipment that we expect will increase both output and repeatability; the nature of the task, and the development approach that we use, involves high velocity experimentation and a large number of samples. We now plan to focus on improving the reliability of our prototype cells by reducing manufacturing defects, and increasing the energy density of these prototype cells to get closer to our commercial targets by incorporating higher capacity-loading cathodes and more efficient packaging.
Our cathodes use a combination of conventional cathode active materials such as NMC or a cobalt-free, nickel-free composition like LFP with a catholyte made of an organic polymer and organic liquid. In the future, we may use other compositions of cathode active materials. Over the years, we have developed catholytes made of differing mixtures of organic polymer and organic liquid electrolyte to optimize performance across multiple metrics such as voltage, temperature, power, and safety, among others. We continue to test solid, gel and liquid catholytes in our cells. The solid catholyte is part of our ongoing research and development investigation into inorganic catholytes. Our solid-state separator platform is being designed to enable faster charge rates for thicker cathode electrodes, which, when combined with a lithium-metal anode, may further increase cell energy densities.
We believe our battery technology may provide significant improvements in energy density compared to today’s conventional lithium-ion batteries, as shown in the figure below.
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Sources: Cell densities for commercialized chemistries based on Ding, Y. et al (2019) and Yang, X. et al. (2021); QuantumScape cell densities based on management estimates.
Benefits of Our Technology
We believe our battery technology will enable significant benefits across battery capacity, charging rate, safety, and life while minimizing cost. We believe these benefits will provide significant value to automotive OEMs by enabling greater customer adoption of their EVs. By solving key pain-points such as 15-minute fast charging, we believe our battery technology will enable the delivery of an EV experience that is significantly more competitive with fossil fuel vehicles than what today’s EVs can achieve with conventional batteries.
Our battery technology is intended to meet the five key requirements we believe will enable mass market adoption of EVs:
•Energy density. Our battery design is intended to significantly increase volumetric and gravimetric energy density by eliminating the carbon/silicon anode host material found in conventional lithium-ion cells. This increased energy density will enable EV manufacturers to increase range without increasing the size and weight of the battery pack, or to reduce the size and weight of the battery pack which will reduce the cost of the battery pack and other parts of the vehicle.
•Fast charging capability. Our battery technology, and specifically our solid-state separator material, has been tested to demonstrate the ability to charge from 10% to 80% capacity in approximately 15 minutes or less, faster than today’s conventional batteries can deliver without materially degrading life. In these conventional batteries, the limiting factor for charge rate is the rate of diffusion of lithium ions into the anode. If a conventional battery is charged at high rate, especially at high state-of-charge or low temperature, lithium can start plating on carbon particles of the anode rather than diffuse into the carbon particles. This causes a reaction between the plated lithium and liquid electrolyte which reduces cell capacity and increases the risk of dendrites that can short circuit the cell. With a lithium-metal anode, using our solid-state separator, we expect the lithium can be plated as fast as the cathode can deliver it.
•Enhanced safety. Our solid-state battery cell uses a ceramic separator which is not combustible and we believe is therefore safer than conventional polymer separators. This ceramic separator is also capable of withstanding temperatures considerably higher than those that would melt conventional polymer separators, providing an additional measure of safety. Although additional safety tests need to be performed, including for larger cells, in high temperature tests of our solid-state separator material with lithium, the separator material remained stable in direct contact with molten lithium without releasing heat externally, even when heated up to 250 degrees Celsius, higher than the 180 degrees Celsius melting point of lithium.
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•Battery cycle life. We are designing our technology to enable increased battery cycle life relative to conventional lithium-ion batteries. In a conventional cell, a reason that battery capacity fades over time is the gradual irreversible loss of lithium due to side reactions between the liquid electrolyte and the anode. By eliminating the anode host material, we expect to eliminate those anode side reactions to enable longer battery cycle life. Our single-layer, four-layer, and 10-layer prototype cells have been tested to over 800 cycles (under stringent test conditions, including 100% depth-of-discharge cycles at one-hour charge and discharge rates at 25 to 30 degrees Celsius and approximately 3.4 atm of pressure with approximately 3mAh/cm2 cathode loading) while still retaining over 80% of the cells’ energy. This performance exceeds the cycle life and capacity retention in battery warranties for some of the best-selling EVs in the U.S. market today, which require that cells retain 70% of the rated capacity at 150,000 miles.
•Cost. Our battery technology eliminates the anode host material and the associated manufacturing costs, providing a structural cost advantage compared to traditional lithium-ion batteries. When comparing manufacturing facilities of similar scale, we estimate that eliminating these costs has the potential to provide a cost savings compared to the costs of building traditional lithium-ion batteries.
Our Competitive Strengths
Only lithium-metal battery technology showing capability to meet automotive requirements for power, cycle life, and temperature range to our knowledge. We have built and tested single- and multi-layer solid-state cells, and have demonstrated that our technology shows the capability to meet automotive requirements for power, cycle life, and temperature range. In 2018, Volkswagen announced it had successfully tested certain of our single-layer, laboratory battery cells at automotive rates of power. Subsequently, Volkswagen has tested certain subsequent generations of laboratory cells, including multi-layer laboratory cells. As of December 31, 2022, we have customer sampling agreements with five other OEMs to collaborate with us in the testing and validation of our solid-state battery cells with the goal of providing such cells to the OEM for inclusion into pre-production prototype vehicles. These OEMs range from top ten manufacturers by global revenue to premium performance and luxury carmakers; additionally, they include both traditional and pure play EV companies.
Partnership with one of the world’s largest automotive OEMs. We are partnered with Volkswagen, one of the largest automakers in the world. Volkswagen has been a major investor since 2012 and has invested a total of more than $300 million in us. In addition, Volkswagen has committed additional capital to fund our 50-50 joint venture to enable an industrial-level production of our solid-state batteries for use in Volkswagen vehicles. As 50-50 partners in the joint venture with Volkswagen, we expect to share equally in the revenue and profit from the joint venture.
High barriers to entry and extensive patent and intellectual property portfolio. Since inception, we have generated more than 300 U.S. and foreign patents and patent applications – including broad fundamental patents around our core technology. Our proprietary solid-state separator uses the only material we know of that can cycle lithium at automotive current densities and room temperature without forming dendrites. We have a range of patents, including patents that cover:
•Composition of matter, including the optimal composition as well as wide-ranging coverage of a number of variations;
•Enabling battery technology covering compositions and methods required to incorporate a solid-state separator into a battery;
•Manufacturing technology, protecting the way to make the separator at scale without semiconductor-style vacuum production or batch processes used in traditional ceramics; and
•Material dimensions, including our proprietary solid-state separator, covering any separator with commercially practical thicknesses for a solid-state battery.
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Significant development focused on next-gen technology for automotive applications. We have spent over a decade and over $700 million developing our battery technology. Many of our technical team members have worked at large battery manufacturers and automotive OEMs. Through its experience, our team has significant technical know-how and is supported by extensive facilities and equipment, development infrastructure, and data analytics.
Designed for volume production. Our battery cells are designed to use earth-abundant materials and processes suitable for high volume production. Our manufacturing process for our proprietary separator uses equipment which are already used at scale in the battery or ceramics industries. While preparing for scale production, we have purchased or tested production-intent equipment from the world’s leading vendors. In particular, we expect to produce our proprietary separator using scalable continuous processing. Although our separator material is proprietary, the inputs are readily available and can be sourced from multiple suppliers across geographies.
Structural cost advantage leveraging industry cost trends. Aside from the separator, our battery is being designed to use many of the materials and processes that are standard across today’s lithium-ion battery manufacturers. As a result, we expect to benefit from the projected industry-wide cost declines for these materials that result from process improvements and economies of scale. We believe that the manufacturing of our solid-state battery cells provides us with a structural cost advantage because our battery cells are manufactured without an anode.
Our Growth Strategy
Continue to develop our commercial battery technology and manufacturing capabilities. We will continue developing our battery technology with the goal of enabling commercial production subsequent to the automotive qualification process, which involves several major delivery milestones — A, B and C samples. We have demonstrated capabilities of our solid-state separator and battery technology in single-layer and multi-layer, solid-state cells in commercially relevant areas (ranging from 60x75mm to 70x85mm), and in 2022, shipped 24-layer A0 prototype battery cells to multiple automotive OEMs for testing. As we move from prototypes to commercial products, we may need to increase cell layer count and will need to continue improving the quality and consistency of materials and processes for high volume manufacturing, including increased precision through automation and process control, quality of material inputs, and particle reduction across our process flow. We will continue to work to further develop and validate the volume manufacturing processes to enable high volume manufacturing and minimize manufacturing costs. We will continue to work on increasing the yield of our separators to reduce scrappage and to increase utilization of manufacturing equipment. Commercialization via the production of initial C samples is first expected from QS-0, our pre-pilot production line in California, and with subsequent production expected from QS-1, a 1GWh pilot-production line, as part of our joint venture partnership with Volkswagen.
Meet Volkswagen battery demand. QS-1 is to be built and run by our 50-50 joint venture with Volkswagen and, together with the subsequent QS-1 Expansion, the full 21GWh target, would represent a small fraction of Volkswagen’s demand for batteries considering vehicle volumes under 2.6% of Volkswagen’s total production in 2022, assuming a 100KWh pack size. Our goal is to significantly expand the production capacity of the joint venture, in partnership with Volkswagen, to meet more of their projected demand.
Expand relationships with other automotive OEMs. While we expect Volkswagen will be the first to commercialize vehicles using our battery technology, we are, and over the next few years as we build QS-1, intend to continue, working closely with other automotive OEMs to make our solid-state battery cells widely available over time. Subject to the terms of the JV arrangements with Volkswagen, we are not prohibited from working in parallel with other automotive OEMs or other non-automotive companies to commercialize our technology. As of December 31, 2022, we have customer sampling agreements with five other OEMs, to collaborate in the testing and validation of our solid-state battery cells, with the goal of providing such cells to the OEMs for inclusion into pre-production prototype vehicles. These OEMs range from top ten manufacturers by global revenue to premium performance and luxury carmakers; additionally, they include both traditional and pure play EV companies.
Expand target markets. We are currently focused on automotive EV applications, which have the most stringent set of requirements for batteries. However, we recognize that our solid-state battery technology has applicability in other large and growing markets including stationary storage and consumer electronics such as smartphones and wearables. As of December 31, 2022, we have an agreement with Fluence Energy Inc. to evaluate our batteries for inclusion in their stationary energy storage applications, and have shipped single-layer pouch cells with zero externally applied pressure for customer testing within the consumer electronics sector.
Expand commercialization models. Our technology is being designed to enable a variety of business models. In addition to joint ventures, such as the one with Volkswagen, we may operate solely-owned manufacturing facilities or license technology to other manufacturers. Where appropriate, we may build and sell separators or cell layers rather than complete battery cells.
Manufacturing and Supply
Our battery manufacturing process is being designed to be very similar to that of conventional lithium-ion battery manufacturing, with a few exceptions:
•We use a proprietary separator material instead of the polyolefin separator used in lithium-ion cells.
•Our architecture eliminates the need for anode manufacturing, reducing capital investment and lowering operating costs.
•We will build our multi-layer cells by sequentially stacking rather than winding cell materials together.
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•Our cell design allows us to shorten the weeks-long aging process required for conventional lithium-ion cells, thus decreasing manufacturing cycle time and reducing working capital needs.
Our architecture depends on our proprietary separator, which we will manufacture ourselves. Though our separator design is unique, its manufacturing relies on well-established, high-volume production processes currently deployed globally in other industries.
We plan to source our input materials from industry leading suppliers to the lithium-ion battery industry, and we already have strategic relationships in place with the industry’s leading vendors of cathode material, the most critical purchased input to our cell, along with leading vendors of other less critical inputs. Our separator is made from abundant materials produced at industrial scale in multiple geographies. We do not anticipate any unique supply constraints that would impede the commercialization of our product for the foreseeable future.
Relative to conventional lithium-ion cells, our technology eliminates the anode material cost (e.g., carbon/silicon host material, electrolyte in the anode) and reduces manufacturing costs (e.g., no anode related manufacturing costs, reduced formation costs). This enables savings in materials, capital equipment and manufacturing time, as illustrated in the graphic below.
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Partnerships
Volkswagen Collaboration
QuantumScape has had a strong collaborative relationship with Volkswagen since 2012. Our collaboration initially focused on the testing and evaluation of QuantumScape’s battery technology. Volkswagen engineers worked closely with our engineering team and oversaw the progress on our technology development efforts and battery testing. Volkswagen has made several rounds of equity investments in QuantumScape, and senior executives of Volkswagen joined our board of directors (the “Board”). During the early part of this collaboration we worked closely with members of Volkswagen’s global research and development team, and now the QuantumScape team works closely with Volkswagen's Center of Excellence for Battery Center, which is tasked with commercializing battery technologies within Volkswagen. Frank Blome, the CEO of PowerCo. SE, Volkswagen’s battery company, and former Head of Volkswagen’s Center of Excellence for Battery Center, and Jens Wiese, the Head of Volkswagen Group M&A, Investment Advisory, and Partnerships, are members of the Board.
Joint Venture Relationship
In June 2018, we formed QSV Operations LLC (“QSV”), a 50-50 joint venture entity with Volkswagen focused on cell manufacturing, to facilitate the commercialization of our solid-state battery technology. In 2018, the parties collectively made an initial equity investment in the joint venture of approximately $3 million. Upon the occurrence of certain development milestones and subject to the entry by QuantumScape, Volkswagen and QSV into certain related agreements, QuantumScape and Volkswagen have agreed to commit additional capital on a 50-50 basis to QSV to fund the buildout of QS-1 and QS-1 Expansion. As 50-50 partners in the cell manufacturing joint venture with Volkswagen, we expect to share equally in the revenue and profit from the joint venture, including from QS-1 and QS-1 Expansion. Under the joint venture agreements, QSV will purchase solid state separators from QuantumScape.
The joint venture agreements were amended in 2020 in connection with a further $200 million investment by Volkswagen in QuantumScape. In connection with this equity investment, Volkswagen has the right to designate two members to our Board, who are currently Mr. Blome and Mr. Wiese.
The joint venture agreements provide for the commercialization of our solid-state battery cells to occur in two phases. The first phase is the construction of QS-1 with an annual capacity of 1GWh. QSV will begin construction of QS-1 when certain delivery and validation milestones are met for our solid-state battery cells. The second phase is QS-1 Expansion.
We believe the joint venture structure will enable Volkswagen to benefit from early access to our solid-state battery cells, but also protect our intellectual property. For example, intellectual property for certain key battery technology will continue to be owned by us and will be provided to the joint venture through a limited license for purposes of QS-1. The parties will agree on the license terms for a high-volume manufacturing facility for this battery technology. The joint venture terminates upon the earliest to occur of (i) Volkswagen exercising specified put rights in the event of, amongst others, (a) a change of control of QuantumScape, or (b) the failure by us to meet specified development milestones within certain timeframes, (ii) QuantumScape or Volkswagen exercising specified call or put rights in the event of, amongst others, if the parties cannot agree to commercial terms for QS-1 or QS-1 Expansion within certain timeframes, (iii) a certain date after commencement of production of a Volkswagen series production vehicle using our battery cells (or an alternative end date if no such production was commenced after certain technical milestones with respect to our battery cell technology were reached) and (iv) December 31, 2028.
The commercialization timeline originally contemplated in 2018 by the joint venture agreements, and by subsequent amendments, has changed, and as of the time of our filing of this annual report on Form 10-K, certain milestones contemplated by the joint venture agreements were not met. As a result, Volkswagen now has the right to exercise its put rights. If Volkswagen exercises such rights, the joint venture with Volkswagen and Volkswagen’s commitments to purchase output capacity from the joint venture would terminate, and we would be obligated to purchase Volkswagen’s interest in the joint venture for its book value. As of December 31, 2022, the book value of this interest was approximately $1.7 million and is recorded as a redeemable non-controlling interest in our Consolidated Balance Sheets. To the extent that we and Volkswagen allocate additional money to the joint venture in the future, the cost to us of a decision by Volkswagen to exercise its put rights would increase. To date, Volkswagen has not informed us of any intention to exercise their put rights. There can be no assurance that Volkswagen will not decide to exercise these or any other put rights that it may have in the future with respect to its interest in the joint venture.
Volkswagen committed to purchase a certain portion of the output capacity of QS-1 at a price for the solid-state battery cells that is comparable to those of lithium-ion batteries, but with a premium for the outperformance of these battery cells based on certain key technical parameters. We will sell separators to the joint venture at a price to be agreed by the parties based on the provisions of the joint venture agreements. The joint venture agreements provide the framework for the commercial relationship. At the appropriate time, the parties will negotiate agreements covering the details of these purchase commitments.
QS-1 Expansion is subject to meeting additional technical milestones and agreement on commercial terms, including pricing for the battery cells, agreement on the terms of purchase or license for the separators, and agreement on terms of the license to our battery technology for QS-1 Expansion. We have agreed that the pricing for the battery cells sold by QS-1 Expansion and the separators purchased by QS-1 Expansion may be different from the pricing set for QS-1, and we will need to agree on pricing at the appropriate time. In addition, we will need to agree to the terms of the license to our battery technology for QS-1 Expansion.
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Volkswagen is expected to have a significant role in the manufacturing ramp-up of QSV, and we have agreed that certain technology that is developed by QSV will be owned by the joint venture and licensed to each of QuantumScape and Volkswagen on a royalty-free basis. None of this intellectual property has been developed to date. Although the parties have not commenced operations on QS-1, Volkswagen has offered to assist us with supply chain, manufacturing ramp-up planning, and automation. In addition, we have collaborated with Volkswagen on enabling us to develop stronger relationships with battery component supply companies, such as cathode manufacturers and equipment supply companies.
Research and Development
We conduct research and development at our headquarters facility in San Jose, California. Research and development activities concentrate on making further improvements to our battery technology. Following the shipment of 24-layer A0 prototype battery cells, we plan to focus our research and development on subsequent generations of prototype samples incorporating advances in cell functionality, process and reliability. We are working to improve the maturity of our production processes and to bring online and scale up our pre-production QS-0 line.
Our research and development currently includes programs for the following areas:
•Continued improvement of our prototype cells’ energy density. We believe our battery technology may provide significant improvements in energy density compared to today’s conventional lithium-ion batteries. We are working to address this opportunity in several ways, including increasing the cathode capacity loading and packaging efficiency of our cells. To increase cathode capacity loading, we need to address several technical challenges, including coating thicker cathode electrodes while maintaining quality, calendaring the cathodes to the necessary thickness, optimizing cathode microstructure, and ensuring good catholyte interface with active material while still meeting our targeted charge and discharge power. To enhance packaging efficiency, we are working to improve the ratio of active materials of the battery to its inactive materials by, among other things, tightening tolerances between the individual cell components, reducing the thickness of elements of the cell stack, and minimizing or eliminating inactive materials or spaces inside the cell package — all without adversely impacting performance of the cells.
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•Continued improvement in quality, consistency and reliability. We are working to improve the quality and uniformity of our cells, including our solid-state separators, to further improve, among other things, the cycling behavior, power, operating conditions, and reliability of our cells. For certain of our processes, we use methods of continuous processing found at scale in both the battery and ceramic industries and are working on continuous improvement of this process, including better quality, consistency, and higher throughput through automation and process control, quality of material inputs, and particle reduction across our process. We are also exploring new methods not typically used in ceramics that offer significant potential cost savings. Regarding consistency, tightening the variability of separator quality we believe results in better yield. We plan to implement process improvements and controls necessary to manufacture higher quality, more consistent materials; we believe these activities will ultimately lead to higher reliability.
•Continued improvement in throughput. Increasing the volume of separator production results in the increased quantities required for prototypes with higher layer counts and delivery of more test cells to prospective customers. We continue to invest and deploy resources to automate our manufacturing process, including purchasing larger-scale manufacturing equipment, that we expect will substantially improve our manufacturing processes and, as a result, increase throughput required for product qualification and to achieve the cost, performance and volume levels required for commercial shipments.
•Multi-layering. We have demonstrated capabilities of our solid-state separator and battery technology in single-layer and multi-layer solid-state cells in commercially relevant areas (ranging from approximately 60x75mm to 70x85mm), and in 2022, shipped 24-layer A0 prototype battery cells to multiple automotive OEMs for testing. In order to advance the maturity of our prototype cells and produce commercially-viable solid-state battery cells, we must produce battery cells with dozens of layers and may have to increase cell layer count; the exact number of layers will vary and depend upon specific customer preference, cell design considerations, and other factors. We will need to overcome production challenges to increase the layer count and implement the appropriate cell design for our solid-state battery cell.
•Continued improvement of the cathode. Our cathodes use a conventional cathode active material such as NMC mixed with a catholyte. We plan to benefit from industry cathode chemistry improvements and/or cost reduction, which in the future may include use of other cathode active materials, including cobalt-free compositions, including LFP, as well as cathode processing advances such as dry electrode processing. Over the years, we have developed catholytes made of differing mixtures of organic polymer and organic liquid electrolyte to optimize performance across multiple metrics such as voltage, temperature, power, and safety, among others. We continue to test solid, gel and liquid catholytes in our cells. The solid catholyte is part of our ongoing research and development investigation into inorganic catholytes. Our solid-state catholyte platform is being designed to enable high rates of charge and discharge for even thicker cathode electrodes, which when combined with a lithium-metal anode, may further increase cell energy densities.
Intellectual Property
The success of our business and technology leadership is supported by our proprietary battery technology. We rely upon a combination of patents, trademarks and trade secrets in the United States and other jurisdictions, as well as license agreements and other contractual protections, to establish, maintain and enforce rights in our proprietary technologies. In addition, we seek to protect our intellectual property through nondisclosure and invention assignment agreements with our employees and consultants and through non-disclosure agreements with business partners and other third parties. We regularly file applications for patents and have a significant number of patents in the United States and other countries where we expect to do business. Our patent portfolio is deepest in the area of solid-state separators with additional areas of strength in anodes, next-generation cathode materials, and cell, module, and pack design specific to lithium-metal batteries. Our trade secrets primarily cover manufacturing methods.
As of December 31, 2022, we owned or licensed, on an exclusive basis, 101 issued U.S. patents and 61 pending or allowed U.S. patent applications, and 165 granted foreign patents and patent applications. We have 2 registered U.S. trademarks and 5 pending U.S. trademark applications. Patents issued to us start expiring in 2033.
Competition
The EV market, and the battery segment in particular, is rapidly evolving and highly competitive. With the introduction of new technologies and the potential entry of new competitors into the market, we expect competition to increase in the future, which could harm our business, results of operations, or financial condition.
Our prospective competitors include major manufacturers currently supplying the industry, automotive OEMs and potential new entrants to the industry. Major companies now supplying batteries for the EV industry include Panasonic Corporation, Samsung SDI, Contemporary Amperex Technology Co. Limited, LG Energy Solutions and BYD Co. Limited. They supply conventional lithium-ion batteries and in many cases are seeking to develop solid-state batteries, including potentially lithium-metal batteries. In addition, because of the importance of electrification, many automotive OEMs are researching and investing in solid-state battery efforts and, in some cases, in battery development and production. For example, Tesla, Inc. is building multiple battery gigafactories and potentially could supply batteries to other automotive OEMs, and Toyota Motors and a Japanese consortium have a multi-year initiative pursuing solid-state batteries.
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A number of development-stage companies such as SES, Solid Power and Enovix are also seeking to improve conventional lithium-ion batteries or to develop new technologies for solid-state and/or lithium-metal batteries. Potential new entrants are seeking to develop new technologies for cathodes, anodes, electrolytes and additives. Some of these companies have established relationships with automotive OEMs and are in varying stages of development.
We believe our ability to compete successfully with lithium-ion battery manufacturers and with other companies seeking to develop solid-state batteries will depend on a number of factors including battery price, safety, energy density, charge rate and cycle life, and on non-technical factors such as brand, established customer relationships and financial and manufacturing resources.
Many of the incumbents have, and future entrants may have, greater resources than we have and may also be able to devote greater resources to the development of their current and future technologies. They may also have greater access to larger potential customer bases and have and may continue to establish cooperative or strategic relationships amongst themselves or with third parties (including automotive OEMs) that may further enhance their resources and offerings.
Government Regulation and Compliance
There are government regulations pertaining to battery safety, transportation of batteries, use of batteries in cars, factory safety, and disposal of hazardous materials. We will ultimately have to comply with these regulations to sell our batteries into the market. The license and sale of our batteries abroad is likely to be subject to export controls in the future.
Employees and Human Capital
We pride ourselves on the quality of our world-class team and seek to hire only employees dedicated to our strategic mission. Many of our employees have significant experience working with large battery manufacturers and automotive OEMS. As of December 31, 2022, we employed approximately 850 employees, based primarily in our headquarters in San Jose, California. Many of our employees in our research and development and related functions hold engineering and scientific degrees, including many from the world’s top universities.
Diversity, Equity and Inclusion
We seek team members who want to help solve a significant problem that will positively impact the world. We value diversity and recognize the importance of fostering a positive, inclusive culture. As such, we have actively taken steps towards eliminating unconscious bias in our hiring and promotion processes while enabling us to add and promote team members who demonstrate behaviors aligned with our values, including but not limited to delivering unconscious bias training to senior leaders, redesigning and enhancing hiring processes and establishing new college relationships to increase the diversity of our candidate pool.
Attraction and Retention
We are committed to maintaining equitable compensation programs including equity participation. We offer market-competitive salaries and strong equity compensation aimed at attracting and retaining team members capable of making exceptional contributions to our success. Our full-time regular employees hold equity in our company and are generally eligible for the employee stock purchase plan. Our compensation decisions are guided by the external market, role criticality, and the contributions of each team member. Our new job leveling framework and associated pay ranges allow us to maintain pay equity while offering the attractive and effective compensation needed as we grow and compete for talent.
Health and Safety
The health and safety of our employees is mission critical. We place heavy emphasis on a proactive safety culture and maintain a supportive organization that encourages personal health for our employees. Our Environmental, Health and Safety (EHS) department leads the programs that address workplace health and safety concerns through engineering controls, policies, procedures, training, monitoring and audits.
To date, we have not experienced any work stoppages and we consider our relationship with our employees to be good. None of our employees are either represented by a labor union or are subject to a collective bargaining agreement.
Available Information
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Our investor relations website is located at https://ir.quantumscape.com, our Twitter account is @QuantumScapeCo, our investor relations Twitter account is @QuantumScapeIR, our Chief Executive Officer’s Twitter account is @startupjag, our Chief Technology Officer’s Twitter account @ironmantimholme, our Chief Marketing Officer’s Twitter account is @HussainAsim, and our corporate LinkedIn account is located at https://www.linkedin.com/company/quantumscape/posts/. We use our investor relations website, aforementioned Twitter accounts and LinkedIn account to post important information for investors, including news releases, analyst presentations, and supplemental financial information, and as a means of disclosing material non-public information and for complying with our disclosure obligations under Regulation FD. Accordingly, investors should monitor our investor relations website, aforementioned Twitter accounts, and LinkedIn account in addition to following press releases, filings with the Securities and Exchange Commission (the “SEC”) and public conference calls and webcasts. We also make available, free of charge, on our investor relations website under “SEC Filings,” our Annual Reports on Form 10-K, Quarterly Reports on Form 10-Q, Current Reports on Form 8-K and any amendments to these reports as soon as reasonably practicable after electronically filing or furnishing those reports to the SEC.
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Item 1A. Risk Factors.
The following summary risk factors and other information included in this Report should be carefully considered. The summary risks and uncertainties described below are not the only ones we face. Additional risks and uncertainties not currently known to us or that we currently deem less significant may also affect our business operations or financial results. If any of the following risks actually materializes, our stock price, business, operating results and financial condition could be materially adversely affected. For more information, see below for more detailed descriptions of each risk factor.
•We face significant challenges in our attempt to develop a solid-state battery cell and produce it at high volumes with acceptable performance, quality, consistency, reliability, throughput and cost. The pace of development in materials science is often not predictable, and we may encounter delays and cost overruns related to planning, permitting, construction, supply chain disruptions, equipment installation, utilities infrastructure installation and operations start-up of our manufacturing facilities. Delays or failures in accomplishing these and other development objectives, including delays in delivering battery cell samples to our customers, may delay or prevent successful commercialization of our products.
•We may not be able to establish supply relationships for necessary materials, components or equipment or may be required to pay more than anticipated for components or equipment, or external factors may negatively affect the reliability of such suppliers, all of which could delay the introduction of our product and negatively impact our business.
•If our batteries fail to perform as expected, our ability to develop, market and sell our batteries could be harmed.
•Our relationship with Volkswagen is subject to various risks which could adversely affect our business and future prospects. There are no assurances that we will be able to meet Volkswagen’s time, cost, performance and volume requirements, or commercialize solid-state batteries from our joint development relationship with Volkswagen.
•We may not succeed in attracting customers during the development stage or for high volume commercial production, and our future growth and success depend on our ability to attract and retain customers.
•We may be unable to adequately control the costs associated with our operations and the components necessary to build our solid-state battery cells, and, if we are unable to control these costs and achieve cost advantages in our production of our solid-state battery cells at scale, our business will be adversely affected.
•We rely heavily on our intellectual property portfolio. If we are unable to protect or assert our intellectual property, our business and competitive position would be harmed.
•We may need to defend ourselves against intellectual property infringement claims or other litigation, which may be time-consuming and could cause us to incur substantial costs.
•We may not be able to accurately estimate the future supply and demand for our batteries, which could result in a variety of inefficiencies in our business and hinder our ability to generate revenue. If we fail to accurately predict our manufacturing requirements, we could incur additional costs or experience delays.
•The battery market continues to evolve, is highly competitive, and we may not be successful in competing in this industry or establishing and maintaining confidence in our long-term business prospects among current and future partners and customers.
•Our batteries and our website, systems, and data we maintain may be subject to intentional disruption, other security incidents, or alleged violations of laws, regulations, or other obligations relating to data handling that could result in liability and adversely impact our reputation and future sales.
•The trading price of our Class A Common Stock has been and may in the future continue to be subject to extreme volatility.
•We have had to restate our previously issued financial statements and in connection with such process, identified a material weakness in our internal control over financial reporting. Although this material weakness has been remediated, we cannot provide assurances that additional material weaknesses, or significant deficiencies, will not occur in the future.
•Global climate change, an increase in related legal and regulatory requirements and an increased related emphasis on ESG matters by various stakeholders could negatively affect our business.
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The following risk factors apply to our business and operations. These risk factors are not exhaustive, and investors are encouraged to perform their own investigation with respect to our business, financial condition, and prospects. We may face additional risks and uncertainties that are not presently known to us, or that we currently deem immaterial, which may also impair our business. The following discussion should be read in conjunction with the financial statements and notes to the financial statements included elsewhere in this Report.
Risks Related to Our Technology Development and Scale-Up
We face significant challenges in our attempt to develop a solid-state battery cell and produce it at high volumes with acceptable performance, quality, consistency, reliability, throughput, and costs. The pace of development in materials science is often not predictable and we may encounter delays and cost overruns related to planning, permitting, construction, equipment installation, utilities infrastructure installation and operations start-up of our manufacturing facilities. Delays or failures in accomplishing these and other development objectives may delay or prevent successful commercialization of our products.
Developing lithium-metal solid-state batteries that meet the requirements for wide adoption by automotive OEMs is a difficult undertaking and, as far as we are aware, has never been done before. We are still in the development stage and face significant challenges in completing the development of our multi-layer battery cells and in producing battery cells in commercial volumes. Some of the development challenges that could prevent the introduction of our solid-state battery cell include difficulties with increasing the quality, consistency, reliability and throughput of our separators and cells, increasing the size and layer count of our multi-layer cells, increasing manufacturing to produce the volume of cells needed for our technology development and customer applications, installing, bringing up and optimizing higher volume manufacturing equipment, packaging design and engineering to ensure adequate cycle life, pressure management, cost reduction, completion of the rigorous and challenging specifications required by our automotive partners, including but not limited to, calendar life, mechanical, safety, and abuse testing and development of the final manufacturing processes.
Our solid-state separators are in the development stage. These separators have never been used before for battery applications (or to our knowledge, for any other applications) and there are significant quality, consistency, reliability and throughput, cost and manufacturing process challenges to be solved in order for the separators to be produced and used commercially. We are likely to encounter engineering challenges as we increase the lateral dimensions, reduce the thickness and increase the production volume of our solid-state separators. If we are not able to overcome these barriers in developing and producing solid-state separators at commercial volumes, our business could fail.
To achieve target energy density, we need to assemble multiple cell layers, enclose them within a single battery package, improve the cathode capacity loading, and address related technical challenges. Depending upon our customer’s requirements, our battery cell may require dozens of layers within each battery package. We have tested single-layer and multi-layer cells in commercially relevant areas that measure approximately 60x75mm to 70x85mm, and shipped our first 24-layer A0 prototype battery cells in 2022; we may need additional layers for subsequent generations of our prototype battery cells – depending upon customer preference, cell design considerations, and other factors – and to produce these cells at improved yields without compromising performance, and while solving related packaging and reliability challenges in a way that is scalable and low-cost. There are significant engineering and mechanical challenges that we must overcome to advance the development of our battery cells. In addition, we will need to acquire certain equipment that we currently do not possess and develop the manufacturing process necessary to make these multi-layer battery cells in high volume. If we are not able to overcome these developmental hurdles in building our multi-layer cells, our business is likely to fail.
We are evaluating multiple cathode material compositions for inclusion in our solid-state battery cells and have not yet finalized the cathode composition or formulation, or the design of related cell assembly components. We also have not validated that the current cell design meets all automotive requirements. We have not yet validated a manufacturing process or acquired the equipment necessary to produce high volumes of our cathode electrode or related cell assembly components that meet all commercial requirements. If we are not able to overcome these developmental and manufacturing hurdles our business likely will fail.
Even if we complete development and achieve volume production of our solid-state battery, if the cost, performance characteristics or other specifications of the battery fall short of our targets or our customer requirements, our sales, product pricing and margins would likely be adversely affected.
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In addition, we must advance our manufacturing processes to include more automation, such as automated film handling and stacking, and to use higher volume equipment and processes, such as moving to larger continuous flow equipment. We must also continue process development and innovation efforts towards substantially shortening cycle time, improving process control, and reducing consumables (including energy usage), towards the target end goal of increasing the quality, consistency, reliability and throughput of our solid-state separators and battery cells. We may encounter delays or unexpected challenges in the delivery, installation and operation of the new equipment. Examples include global supply chain issues that impact our equipment suppliers, supplier non-performance, equipment damage in transit, and COVID-19-related delays. These challenges may be exacerbated in situations where we source certain of our materials and equipment exclusively from one or a few suppliers. Further, we must build QS-0 to provide a sufficient quantity of solid-state separators and cells for internal development, customer sampling (including pre A-sample, A-sample, B-sample, and C-sample cells), and initial commercial production. We could encounter significant delays and cost overruns related to planning, permitting, construction, equipment installation and qualification, utilities infrastructure installation, and operations start-up of our manufacturing facilities, including those containing our QS-0 line. For example, we have experienced short-term power outages at our San Jose facilities that have been resolved but similar disruptions may occur in the future; delays associated with material shortage and backups at key shipping ports could impact the capacity at which we can run the facility; and certain of our construction contractors have previously reported delays due to labor strikes of their employees that have been resolved for now but may reoccur in the future. We must substantially improve our manufacturing processes to increase yield and throughput to achieve the cost, performance and volume levels required for commercial shipments. In addition, our multi-layer battery cells must simultaneously satisfy all of the commercial and safety requirements of our customers.
Any delay in the development or manufacturing scale-up of our solid-state battery cells would negatively impact our business as it will delay time to revenue and negatively impact our customer relationships. Additionally, we may encounter delays in obtaining the necessary regulatory approvals or launching our solid-state battery on the market, including delays in entering into agreements for the supply of component parts and manufacturing equipment and supplies. Delays in the launching of our product would materially damage our business, prospects, financial condition, operating results and brand.
We may not be able to establish supply relationships for necessary materials, components or equipment or may be required to pay more than anticipated for components or equipment, which could delay the introduction of our product and negatively impact our business.
We rely on third-party suppliers for components and equipment necessary to develop and manufacture our solid-state batteries, including key supplies, such as our cathode material and manufacturing equipment for both our separator and solid-state battery cells. We are collaborating with key suppliers but have not yet entered into agreements for the supply of production quantities for many of these materials. To the extent that we are unable to enter into commercial agreements with these suppliers on beneficial terms, or these suppliers experience difficulties or delays ramping up their supply of materials to meet our requirements, the introduction of our battery will be delayed. For example, we have previously experienced minor disruptions to the supply of process gas due to the shortage of truck drivers related to the COVID-19 pandemic and have also experienced disruption to the supply of petroleum-derived products as a result of certain weather and geopolitical events. The war in Ukraine and resulting sanctions against Russia by certain countries has also led to an increase in the price of petroleum and petroleum-derived products, which in turn could adversely affect the cost of manufacturing, input material pricing and logistics costs.
We expect to incur significant costs related to procuring materials required to manufacture and assemble our batteries. We expect to use various materials in our batteries that will require us to negotiate purchase agreements and delivery lead-times on advantageous terms. We may not be able to control fluctuation in the prices for these materials or negotiate agreements with suppliers on terms that are beneficial to us. Our business depends on the continued supply of certain proprietary materials for our products. We are exposed to multiple risks relating to the availability and pricing of such materials and components, including reliance upon our vendors to construct and produce equipment to increase volumes, which may lead to delays or the requirement that we make additional upfront payments. Substantial increases in the prices for our raw materials or components, which may be expected, particularly if inflation rates continue at the high levels seen in 2022, would increase our operating costs and negatively impact our prospects. For example, our shipping costs have increased as suppliers have applied fuel surcharges. Costs for certain key raw materials and components have also increased due to fluctuations in global commodity prices. Our suppliers' increasing labor costs have also contributed to rising prices. Given that we have yet to generate any revenue from our business operations, we are also limited in our ability to pass on the cost of any such increases to our customers.
In addition, the cost of mass-producing battery cells, depends in part upon the prices and availability of raw materials such as lithium, nickel, cobalt and/or other metals. The prices for these materials fluctuate and their available supply may be unstable, depending on market conditions and global demand for these materials. Demand for lithium has increased dramatically in recent years, and is expected to continue to increase, due to the ongoing rapid increase in lithium batteries in portable electronics and the growing EV and energy storage markets. Furthermore, significant deposits of certain of our raw materials, such as lithium, are available in countries that may be subject to political, economic and social instability or where there is an ongoing risk of tariffs or other prohibitions being imposed by the United States or the European Union on the import of such materials from such countries. There can be no assurance that suppliers of these raw materials may be able to meet our volume needs at reasonable prices, particularly as we ramp up our commercial operations.
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Any disruption in the supply of components, equipment or materials could temporarily disrupt research and development activities or production of our batteries until an alternative supplier is able to supply the required material. Changes in business conditions, unforeseen circumstances, governmental changes, disruptions caused by power outages, climate change and other natural disasters, and other factors beyond our control or which we do not presently anticipate, could also affect our suppliers’ ability to deliver components or equipment to us on a timely basis. Any of the foregoing could materially and adversely affect our results of operations, financial condition and prospects.
Currency fluctuations, trade barriers, tariffs or shortages and other general economic or political conditions may limit our ability to obtain key components or equipment for our solid-state batteries or significantly increase freight charges, raw material costs and other expenses associated with our business, which could further materially and adversely affect our results of operations, financial condition and prospects.
In addition, as the war in Ukraine continues or possibly escalates, this may lead to further disruption, instability and volatility in global markets and industries that could negatively impact our operations and our supply chain. The U.S. government and other governments have already imposed severe sanctions and export controls against Russia and Russian interests and may yet impose additional sanctions and controls. The impact of these measures, as well as potential responses to them by Russia, is currently unknown and they could adversely affect the global economy, our business, supply chain, partners or customers. Outbreaks of coronavirus cases in China during 2022 and the resultant lockdowns in some cities, including Shenzhen and Shanghai, has also adversely affected supply chains and may impact our ability to access materials timely in the event such supply chain disruptions continue or are not fully resolved. In addition, current U.S. restrictions on trade with China have impacted our ability to source certain production equipment. Should there be economic disruption resulting from the dynamics of geopolitical relations between the U.S. and China, there may be volatility of prices and lead times of equipment and materials sourced from or with a supply chain passing through China.
We may be unable to adequately control the costs associated with our operations and the components necessary to build our solid-state battery cells, and, if we are unable to control these costs and achieve cost advantages in our production of our solid-state battery cells at scale, our business will be adversely affected.
We require significant capital to develop and grow our business and expect to incur significant expenses, including those relating to research and development, raw material procurement, leases, sales and distribution as we build our brand and market our batteries, and general and administrative costs as we scale our operations. For example, there has been volatility in prices and availability of raw material such as cobalt, nickel, and lithium and such material may face industry-wide shortages. Our ability to become profitable in the future will not only depend on our ability to successfully market our solid-state batteries and services, but also to control our costs and achieve our target cost projections, including our projected cost advantage when compared to the costs of building traditional lithium-ion batteries at scale or the costs of building solid-state batteries by other market players. If we are unable to cost efficiently design, manufacture, market, sell and distribute our solid-state batteries and services, our margins, profitability and prospects would be materially and adversely affected. We have not yet produced any solid-state battery cells at commercial capacity or in volume and our forecasted cost advantage for the production of these cells at scale, compared to conventional lithium-ion cells, will require us to achieve rates of throughput, use of electricity and consumables, yield, and levels of automation that we have not yet achieved. If we are unable to achieve these targeted rates, our business will be adversely impacted.
In particular, while we have estimated that eliminating the anode host material and the associated manufacturing costs will provide a savings in production at scale compared to the costs of building traditional lithium-ion batteries at leading manufacturers, that estimate is subject to numerous assumptions and uncertainties. To achieve those savings, we will need to achieve significant cost savings in battery design and manufacturing, in addition to the cost savings associated with the elimination of an anode from our solid-state battery cells, while controlling costs associated with the manufacturing of our solid-state separator, including achieving substantial improvements in throughput and yield required to hit commercial targets. Further, we will need to capture industry-wide cost savings in the materials, components, equipment, and processes that we share, notably in the cathode, cell design, and factory. We cannot be certain that we will achieve these cost savings or that future efficiency improvements in lithium-ion battery manufacturing will not reduce or eliminate these estimated cost savings.
We rely on complex machinery for our operations, and production involves a significant degree of risk and uncertainty in terms of operational performance and costs.
We rely heavily on complex machinery for our operations and the production of our solid-state battery cells, and this equipment has not yet been qualified to operate at large-scale manufacturing. The work required to integrate this equipment into the production of our solid-state battery cells is time intensive and requires us to work closely with the equipment provider to ensure that it works properly for our unique battery technology. This integration work will involve a significant degree of uncertainty and risk and may result in a delay in the scaling up of production or result in additional cost to our battery cells.
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To achieve our commercialization goals, we will require large-scale machinery. Such machinery is likely to suffer unexpected malfunctions from time to time and may require repairs and spare parts to resume operations, which may not be available when needed, particularly if global supply chain disruptions continue or are not fully resolved. Unexpected malfunctions of our production equipment may significantly affect the intended operational efficiency. In addition, because this equipment has not been used to build our solid-state battery cells before, the operational performance and costs associated with this equipment can be difficult to predict and may be influenced by factors outside of our control, such as, but not limited to, failures by suppliers to deliver necessary components of our products in a timely manner and at prices and volumes acceptable to us, environmental hazards and remediation, difficulty or delays in obtaining governmental permits, damages or defects in systems, industrial accidents, fires, seismic activity and other natural disasters.
Operational problems with our manufacturing equipment could result in the personal injury to or death of workers, the loss of production equipment, damage to manufacturing facilities, monetary losses, delays and unanticipated fluctuations in production. In addition, operational problems may result in environmental damage, administrative fines, increased insurance costs and potential legal liabilities. These operational problems could have a material adverse effect on our business, results of operations, cash flows, financial condition or prospects.
Customer Risks and Risks Related to Our Partnership with Volkswagen
Our relationship with Volkswagen is subject to various risks which could adversely affect our business and future prospects. There are no assurances that we will be able to commercialize solid-state batteries from our joint development relationship with Volkswagen.
We and Volkswagen have formed a joint venture to collaborate on the manufacturing ramp up of our solid-state battery cell.
There is no assurance that we will be able to complete the development of the solid-state battery cells in the time frame required by the joint venture arrangements or to satisfy Volkswagen's business needs. If we do not complete this development in a timely manner, Volkswagen may terminate its participation in the joint venture. Our joint venture arrangements with Volkswagen provide a framework for our cooperation and requires that we and Volkswagen enter into certain additional arrangements regarding the purchase by the joint venture of solid-state separators from us, the purchase and pricing of the solid-state battery cells that will be produced by the joint venture and sold to Volkswagen, and the terms for licensing our technology to the joint venture. There can be no assurance that we will be able to agree with Volkswagen on these key elements on terms that are financially beneficial for us or that we will be able to enter into the additional arrangements, including any purchase orders, with Volkswagen for commercialization under the joint venture arrangements.
The commercial terms of the purchase by Volkswagen of the output of the joint venture will depend on the performance of our solid-state battery and the demand for the vehicles that Volkswagen develops to utilize the solid-state battery cells that will be produced by the joint venture. If we cannot complete the development of our solid-state battery cells, if Volkswagen does not select our solid-state battery cell for commercialization or if there is a delay in the introduction of the Volkswagen vehicles that intend to use our solid-state battery cells, our business will be harmed.
The strong relationship that we have developed with Volkswagen and rights under the joint venture agreements may deter other automotive OEMs from working closely with us. If we are not able to expand our other customer relationships, or if we become too dependent on Volkswagen for our revenue, our business could be harmed.
Volkswagen may have economic, business or legal interests or goals that are inconsistent with our goals. Any significant disagreements with Volkswagen may impede our ability to maximize the benefits of our partnerships and slow the commercialization of our solid-state battery. Our joint venture arrangements may require us, among other things, to pay certain costs or to make certain capital investments or to seek Volkswagen’s consent to take certain actions. In addition, if Volkswagen is unable or unwilling to meet its economic or other obligations under the joint venture arrangements, we may be required to either fulfill those obligations alone to ensure the ongoing success of the joint venture or to dissolve and liquidate the joint venture. These factors could result in a material adverse effect on our business and financial results. In 2022, Volkswagen announced the formation of PowerCo. SE, a company intended to consolidate its activities along the value chain for batteries – from processing raw materials to developing a unified Volkswagen battery to managing the European gigafactories. We cannot predict the extent to which PowerCo’s activities may pose a competitive risk to, or otherwise be in conflict with, our business.
If our batteries fail to perform as expected, our ability to develop, market, and sell our batteries could be harmed.
Once commercial production of our solid-state battery cells commences, our batteries may contain defects in design and manufacture that may cause them to not perform as expected or that may require repairs, recalls, and design changes. Our batteries are inherently complex and incorporate technology and components that have not been used for other applications and that may contain defects and errors, particularly when first introduced. We have a limited frame of reference from which to evaluate the long-term performance of our solid-state batteries. There can be no assurance that we will be able to detect and fix any defects in our solid-state batteries prior to the sale to potential consumers. If our batteries fail to perform as expected, we could lose design wins and customers may delay deliveries, terminate further orders or initiate product recalls, each of which could adversely affect our sales and brand and could adversely affect our business, prospects, and results of operations.
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We may not succeed in attracting customers during the development stage or for high volume commercial production, and our future growth and success depend on our ability to attract and retain customers.
We may not succeed in attracting customers during the development stage or for high volume commercial production. For example, we may be unsuccessful at attracting additional customers for QS-0, in which case we may have excess capacity. In addition, if we are unable to attract new customers in need of high-volume commercial production of our products, whether due to inadequate product-market fit or for other reasons, our business may suffer.
Many of our potential customers tend to be large enterprises. Therefore, our future success will depend on our ability to effectively sell our products to such large customers. Sales to these end-customers involve risks that may not be present (or that are present to a lesser extent) with sales to smaller customers. These risks include, but are not limited to, (i) increased purchasing power and leverage held by large customers in negotiating contractual arrangements with us, including a greater ability to push back on attempts to pass on increased operating and procurement costs, and (ii) longer sales cycles and the associated risk that substantial time and resources may be spent on a potential end-customer that elects not to purchase our solutions.
Our potential customers that are large organizations often undertake a significant evaluation process that results in a lengthy sales cycle. In addition, product purchases by large organizations are frequently subject to budget constraints, multiple approvals and unanticipated administrative, processing and other delays. Finally, large organizations typically have longer implementation cycles, require greater product functionality and scalability, require a broader range of services, demand that vendors take on a larger share of risks, require acceptance provisions that can lead to a delay in revenue recognition and expect greater payment flexibility. All of these factors can add further risk to business conducted with these potential customers.
If the Put or Call Rights under our joint venture agreements with Volkswagen are exercised, the joint venture and Volkswagen’s purchase commitment will be terminated and our business could be harmed.
The joint venture structure we agreed to with Volkswagen is intended, in part, to protect our intellectual property. Certain key battery technology will continue to be owned by us and will be provided to the joint venture through a limited license for purposes of QS-1. We and Volkswagen still need to agree on the license terms for this battery technology license for QS-1 Expansion. The joint venture terminates upon the earliest to occur of (i) Volkswagen exercising specified put rights in the event of, amongst others, (a) a change of control of our company, or (b) the failure by us to meet specified development milestones within certain timeframes, (ii) us exercising specified call rights or Volkswagen exercising specified put rights if, among other things, the parties cannot agree to commercial terms for QS-1 or QS-1 Expansion within certain timeframes, (iii) a certain date after commencement of production of a Volkswagen series production vehicle using our battery cells (or an alternative end date if no such production was commenced after certain technical milestones with respect to our battery cell technology were reached) and (iv) December 31, 2028.
The commercialization timeline originally contemplated in 2018 by the joint venture agreements, and by subsequent amendments, has changed, and as of the time of our filing of this annual report on Form 10-K, certain milestones contemplated by the joint venture agreements were not met. As a result, Volkswagen now has the right to exercise its put rights. If Volkswagen exercises such rights, the joint venture with Volkswagen and Volkswagen’s commitments to purchase output capacity from the joint venture would terminate, and we would be obligated to purchase Volkswagen’s interest in the joint venture for its book value. As of December 31, 2022, the book value of this interest was approximately $1.7 million and is recorded as a redeemable non-controlling interest in our Consolidated Balance Sheets. To the extent that we and Volkswagen allocate additional money to the joint venture in the future, the cost to us of a decision by Volkswagen to exercise its put rights would increase. There can be no assurance that Volkswagen will not decide to exercise these or any other put rights that it may have in the future with respect to its interest in the joint venture.
In the event that Volkswagen exercises its put rights and the joint venture and Volkswagen’s purchase commitment are terminated, our ability to ramp up our production capabilities, our reputation, investors’ perception of us, and the price of our Class A Common Stock could be adversely impacted, and our business could be harmed.
We may not be able to accurately estimate the future supply and demand for our batteries, which could result in a variety of inefficiencies in our business and hinder our ability to generate revenue. If we fail to accurately predict and forecast our manufacturing requirements, we could incur additional costs or experience delays.
It is difficult to predict our future revenues and appropriately budget for our expenses, and we may have limited insight into trends that may emerge and affect our business. We anticipate being required to provide forecasts of our demand to our current and future suppliers prior to the scheduled delivery of products to potential customers. Currently, there is no historical basis for making judgments on the demand for our batteries or our ability to develop, manufacture, and deliver batteries, or our profitability in the future. If we overestimate our requirements, our suppliers may have excess inventory, which indirectly would increase our costs. If we underestimate our requirements, our suppliers may have inadequate inventory, which could interrupt manufacturing of our products and result in delays in shipments and revenues. In addition, lead times for materials and components that our suppliers order may vary significantly and depend on factors such as the specific supplier, contract terms and demand for each component at a given time. If we fail to order sufficient quantities of product components in a timely manner, the delivery of batteries to our potential customers could be delayed, which would harm our business, financial condition and operating results.
Our future growth and success are dependent upon consumers’ willingness to adopt EVs.
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Our growth and future demand for our products is highly dependent upon the adoption by consumers of alternative fuel vehicles in general and EVs in particular. In response to the Russian invasion of Ukraine, many countries, companies and consumers have accelerated targets with respect to decreasing dependency on fossil fuels, which in turn is expected to increase demand for EVs; however, the market for new EVs continues to evolve rapidly and is also characterized by rapidly changing technologies, competitive pricing and other competitive factors, evolving government regulation and industry standards, and changing consumer demands and behaviors. If the market for EVs in general does not develop as expected, or develops more slowly than expected, our business, prospects, financial condition and operating results could be harmed.
Concentration of ownership among a few stockholders and our executive officers, directors and their affiliates may prevent other stockholders from influencing significant corporate decisions.
As of December 31, 2022, our executive officers, directors and their affiliates as a group and each of our stockholders who own 5% or more of our outstanding Class A Common Stock or our Class B Common Stock, in the aggregate, beneficially own approximately 28.1% of our Class A Common Stock and 95.7% of our Class B Common Stock outstanding, representing approximately 74.4% of the vote. As a result, these stockholders, including Volkswagen, will be able to exercise a significant level of control over all matters requiring stockholder approval, including the election of directors, any amendment of our Amended and Restated Certificate of Incorporation (the “Certificate of Incorporation”) and approval of significant corporate transactions. In addition, Volkswagen holds the right to designate two directors to our Board. This control could have the effect of delaying or preventing a change of control or changes in our management and will make the approval of certain transactions difficult or impossible without the support of these stockholders and of their votes.
Our Intellectual Property Risks
We rely heavily on our intellectual property portfolio. If we are unable to protect or assert our intellectual property, our business and competitive position would be harmed.
We may not be able to prevent unauthorized use of our intellectual property, which could harm our business and competitive position. We rely upon a combination of the intellectual property protections afforded by patents, trademarks and trade secrets in the United States and other jurisdictions, as well as license agreements and other contractual protections, to establish, maintain and enforce rights in our proprietary technologies. In addition, we seek to protect our intellectual property through nondisclosure and invention assignment agreements with our employees and consultants, and through non-disclosure agreements with business partners and other third parties. Despite our efforts to protect our proprietary rights, third parties, including our business partners, may attempt to copy or otherwise obtain, use or practice our intellectual property without our consent. Monitoring unauthorized use of our intellectual property is difficult and costly, and the steps we have taken or will take to prevent misappropriation may not be sufficient. Any enforcement efforts we undertake, including litigation, could be time-consuming and expensive and could divert management’s attention, which could harm our business, results of operations and financial condition. In addition, existing intellectual property laws and contractual remedies may afford less protection than needed to safeguard our intellectual property portfolio.
Patent, trademark and trade secret laws vary significantly throughout the world. A number of foreign countries do not protect intellectual property to the same extent as do the laws of the United States. Government actions may also undermine our intellectual property. For example, a decree was adopted by the Russian government in March 2022, allowing Russian companies and individuals to exploit inventions owned by patentees from the United States without consent or compensation. Therefore, our intellectual property may not be as strong or as easily enforced outside of the United States and efforts to protect against the unauthorized use of our intellectual property, technology and other proprietary rights may be more expensive and difficult outside of the United States. Failure to adequately protect our intellectual property could result in our competitors using our intellectual property to offer products, potentially resulting in the loss of some of our competitive advantage and a decrease in our revenue which would adversely affect our business, prospects, financial condition and operating results.
We may need to defend ourselves against intellectual property infringement claims, which may be time-consuming and could cause us to incur substantial costs.
Companies, organizations or individuals, including our current and future competitors, may hold or obtain patents, trademarks or other proprietary rights that would prevent, limit or interfere with our ability to make, use, develop or sell our products, which could make it more difficult for us to operate our business. From time to time, we may receive requests from third parties inquiring whether we are infringing their intellectual property and/or seek court declarations that they do not infringe upon our intellectual property. Companies holding patents or other intellectual property relating to batteries, ceramics, electric motors or electronic power management systems may bring suits alleging infringement of such rights or otherwise asserting their rights and seeking licenses. In addition, if we are determined to have infringed upon a third party’s intellectual property, we may be required to do one or more of the following:
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•cease selling, incorporating or using products or methods that incorporate or otherwise infringe or misappropriate the challenged intellectual property;
•pay substantial damages;
•obtain a license from the holder of the infringed intellectual property, which license may not be available on reasonable terms or at all; or
In the event of a successful claim of infringement against us and our failure or inability to obtain a license to the infringed technology on reasonable terms, our business, prospects, operating results and financial condition could be materially adversely affected. In addition, any litigation or claims, whether or not well-founded, could result in substantial costs and diversion of resources and management’s attention.
We also license patents and other intellectual property and technology from third parties, and we may face claims that our use of this intellectual property infringes the rights of others. In such cases, we may seek indemnification from our licensors under our license contracts with them. However, our rights to indemnification may be unavailable or insufficient to cover our costs and losses, depending on our use of the technology, whether we choose to retain control over conduct of the litigation, and other factors.
Our patent applications may not result in issued patents or our patent rights may be contested, circumvented, invalidated or limited in scope, any of which could have a material adverse effect on our ability to prevent others from interfering with our commercialization of our products.
Our patent applications may not result in issued patents, which may have a material adverse effect on our ability to prevent others from commercially exploiting products similar to ours. The status of patents involves complex legal and factual questions and the breadth of claims allowed is uncertain. As a result, we cannot be certain that the patent applications that we file will result in patents being issued, or that our patents and any patents that may be issued to us will afford protection against competitors with similar technology. Numerous patents and pending patent applications owned by others exist in the fields in which we have developed and are developing our technology. Any of our existing or pending patents may be challenged by others on the basis that they are invalid or unenforceable. Furthermore, patent applications filed in foreign countries are subject to laws, rules and procedures that differ from those of the United States, and thus we cannot be certain that foreign patent applications related to issued U.S. patents will be issued.
Even if our patent applications succeed and we are issued patents in accordance with them, these patents may still be contested, circumvented, invalidated or limited in scope in the future. The rights granted under any issued patents may not provide us with meaningful protection or competitive advantages, and some foreign countries provide significantly less effective patent enforcement than in the United States. In addition, the claims under any patents that issue from our patent applications may not be broad enough to prevent others from developing technologies that are similar or that achieve results similar to ours. The intellectual property of others could also bar us from licensing and exploiting any patents that issue from our pending applications. In addition, patents issued to us may be infringed upon or designed around by others and others may obtain patents that we need to license or design around, either of which would increase costs and may adversely affect our business, prospects, financial condition and operating results.
Our Business Risks
The battery market continues to evolve, is highly competitive, and we may not be successful in competing in this industry or establishing and maintaining confidence in our long-term business prospects among current and future partners and customers.
The battery market in which we compete continues to evolve and is highly competitive. To date, we have focused our efforts on our lithium-metal solid-state battery technology, which is being designed to outperform conventional lithium-ion battery technology. However, lithium-ion battery technology has been widely adopted and our current competitors have, and future competitors may have, greater resources than we do and may also be able to devote greater resources to the development of their current and future technologies. These competitors also may have greater access to customers and may be able to establish cooperative or strategic relationships amongst themselves or with third parties that may further enhance their resources and competitive positioning. In addition, lithium-ion battery manufacturers may continue to reduce cost and expand supply of conventional batteries and therefore reduce the prospects for our business or negatively impact the ability for us to sell our products at a market-competitive price and yet at sufficient margins.
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Many automotive OEMs and a number of battery technology companies are researching and investing in solid-state battery efforts and, in some cases, in battery development and production. There are a number of companies seeking to develop alternative approaches to solid-state battery technology, including lithium-metal batteries. In 2022, Volkswagen announced the formation of PowerCo. SE, a company intended to consolidate its activities along the value chain for batteries – from processing raw materials to developing a unified Volkswagen battery to managing the European gigafactories. We expect competition in battery technology and EVs to intensify due to increased demand for these vehicles and a regulatory push for EVs, continuing globalization, and consolidation in the worldwide automotive industry. Developments in alternative technologies or improvements in battery technologies made by competitors may materially adversely affect the sales, pricing and gross margins of our batteries. If a competing technology is developed that has superior operational or price performance, our business will be harmed. Similarly, if we fail to accurately predict and ensure that our battery technology can address customers’ changing needs or emerging technological trends, or if our customers fail to achieve the benefits expected from our solid-state batteries, our business will be harmed.
We must continue to commit significant resources to develop our battery technology to establish a competitive position, and these commitments will be made without knowing whether such investments will result in products potential customers will accept. There is no assurance we will successfully identify new customer requirements, develop and bring our batteries to market on a timely basis, or that products and technologies developed by others will not render our batteries obsolete or noncompetitive, any of which would adversely affect our business and operating results.
Customers will be less likely to purchase our batteries if they are not convinced that our business will succeed in the long term. Similarly, suppliers and other third parties will be less likely to invest time and resources in developing business relationships with us if they are not convinced that our business will succeed in the long term. Accordingly, to build and maintain our business, we must maintain confidence among current and future partners, customers, suppliers, analysts, ratings agencies and other parties in our long-term financial viability and business prospects. Maintaining such confidence may be particularly complicated by certain factors including those that are largely outside of our control, such as our limited operating history, market unfamiliarity with our products, any delays in scaling manufacturing, delivery and service operations to meet demand, competition and uncertainty regarding the future of EVs and our eventual production and sales performance compared with market expectations.
We are an early-stage company with a history of financial losses and expect to incur significant expenses and continuing losses from operations for the foreseeable future.
We incurred a loss from operations of approximately $420.6 million, a net loss of approximately $411.9 million for the year ended December 31, 2022, respectively, and an accumulated deficit of approximately $2.4 billion from our inception in 2010 through the year ended December 31, 2022. We believe that we will continue to incur operating losses each quarter until at least the time we begin significant production of our lithium-metal solid-state batteries, and such production is not expected to occur in the near future.
We expect the rate at which we will incur losses to be significantly higher in future periods as we, among other things, continue to incur significant expenses in connection with the design, development and manufacturing of our batteries; expand our research and development activities; invest in manufacturing capabilities; build up inventories of components for our batteries; increase our sales and marketing activities; develop our distribution infrastructure; and increase our general and administrative functions to support our growing operations. We may find that these efforts are more expensive than we currently anticipate or that these efforts may not result in revenues, which would further increase our losses.
Our expectations and targets regarding the times when we will achieve various technical, pre-production and production objectives depend in large part upon assumptions and analyses developed by us. If these assumptions or analyses prove to be incorrect, we may not achieve these milestones when expected or at all.
Our expectations and targets regarding the times when we will achieve various technical, pre-production and production objectives reflect our current expectations and estimates. Whether we will achieve these objectives when we expect depends on a number of factors, many of which are outside our control, including, but not limited to:
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•success and timing of development activity;
•unanticipated technical or manufacturing challenges or delays;
•technological developments relating to lithium-ion, lithium-metal solid-state or other batteries that could adversely affect the commercial potential of our technologies;
•whether we can obtain sufficient capital to build our manufacturing facilities and sustain and grow our business;
•adverse developments in our joint venture relationship with Volkswagen, including termination of the joint venture or delays in negotiating commercial terms for QS-1 or QS-1 Expansion;
•our ability to manage our growth;
•whether we can manage relationships with key suppliers;
•our ability to retain existing key management, integrate recent hires and attract, retain and motivate qualified personnel; and
•the overall strength and stability of domestic and international economies.
Unfavorable changes in any of these or other factors, most of which are beyond our control, could materially and adversely affect our ability to achieve our objectives when planned and our business, results of operations and financial results.
We may be negatively impacted by epidemics, pandemics, and other outbreaks.
We face various risks related to epidemics, pandemics, and other outbreaks. For example, the COVID-19 pandemic resulted in changes in consumer and business behavior, a severe market downturn, and restrictions on business and individual activities, as well as in significant volatility in the global economy and reduced economic activity. The spread of COVID-19 also impacted our potential customers and our suppliers by disrupting the manufacturing, delivery and overall supply chain of battery, EV and equipment manufacturers and suppliers and led to a global decrease in battery and EV sales in markets around the world. Specifically, we experienced minor disruptions to the supply of process gas due to the shortage of truck drivers related to the COVID-19 pandemic. In response to the pandemic, government authorities initially implemented numerous measures to try to contain the virus, such as travel bans and restrictions, quarantines, stay-at-home or shelter-in-place orders, and business shutdowns, and later vacillated between the easing of restrictive measures and reinstating such measures or threatening to do so based on the severity of the pandemic. Employees at our headquarters located in San Jose, California were subject to a stay-at-home order from the state and local governments. These measures limited operations in our San Jose headquarters and adversely impacted our employees, research and development activities and operations (especially since various aspects of our business cannot be conducted remotely, including many aspects of the development and manufacturing of our solid-state material and our battery cells) and the operations of our suppliers, vendors and business partners.
In the event of a further epidemic, pandemic or other outbreak, including a resurgence of COVID-19 or a related strain of such virus, we may face similar adverse effects as experienced during the COVID-19 pandemic. For example, we may be required to take a variety of measures as may be required by government authorities or that we determine are in the best interests of our employees, suppliers, vendors and business partners, and any such measures may adversely affect our future manufacturing plans, supply chain sales and marketing activities, business and results of operations.
The extent to which any such epidemic, pandemic or other outbreak would impact our business, prospects and results of operations will depend on future developments, which are highly uncertain and cannot be predicted, including the duration and spread of any such epidemic, pandemic or other outbreak, the actions to contain the outbreak or treat its impact, including the development, distribution and administration of effective vaccines, a waning immunity among persons already vaccinated, an increase in fatigue or skepticism with respect to initial or booster vaccinations, the severity of breakthrough cases and variants, including potentially vaccine-resistant variants, and how quickly and to what extent normal economic and operating activities can resume. Even after any such epidemic, pandemic or other outbreak has subsided, we may continue to experience an adverse impact to our business as a result of the global economic impact, including any recession that has occurred or may occur in the future, or due to changes in consumer behavior, for example an increase in remote work leading to a decrease in demand for automobiles.
Global climate change, an increase in related legal and regulatory requirements and an increased related emphasis on ESG matters by various stakeholders could negatively affect our business.
Increased public awareness and concern over climate change may result in new or increased legal and regulatory requirements to reduce or mitigate the effects of climate change on the environment. Increased costs of energy or compliance with emissions standards due to increased legal or regulatory requirements may cause disruptions in or increased costs associated with our development and manufacturing operations. Any failure to achieve our goals with respect to reducing our impact on the environment or a perception (whether or not valid) of our failure to act responsibly with respect to the environment or to effectively respond to new, or changes in, legal or regulatory requirements concerning climate change or other sustainability concerns could adversely affect our business and reputation.
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From time to time, we may be involved in litigation, regulatory actions or government investigations and inquiries, which could have an adverse impact on our profitability and consolidated financial position.
We may be involved in a variety of litigation, other claims, suits, regulatory actions or government investigations and inquiries and commercial or contractual disputes that, from time to time, are significant. See Note 7, Commitments and Contingencies, to the consolidated financial statements elsewhere in this Report for a description of pending litigation matters that we are involved in.
In addition, from time to time, we may also be involved in legal proceedings and investigations arising in the normal course of business including, without limitation, commercial or contractual disputes, including warranty claims and other disputes with potential customers and suppliers; intellectual property matters; personal injury claims; environmental issues; tax matters; and employment matters.
It is difficult to predict the outcome or ultimate financial exposure, if any, represented by these matters, and there can be no assurance that any such exposure will not be material. Such claims may also negatively affect our reputation.
We may become subject to product liability claims, which could harm our financial condition and liquidity if we are not able to successfully defend or insure against such claims.
We may become subject to product liability claims, even those without merit, which could harm our business, prospects, operating results, and financial condition. We face inherent risk of exposure to claims in the event our batteries do not perform as expected, fail to meet relevant safety standards or requirements, or malfunction resulting in personal injury or death. Our risks in this area are particularly pronounced given our batteries have not yet been commercially tested or mass produced. A successful product liability claim against us could require us to pay a substantial monetary award. Moreover, a product liability claim could generate substantial negative publicity about our batteries and business and inhibit or prevent commercialization of other future battery candidates, which would have a material adverse effect on our brand, business, prospects and operating results. Any insurance coverage might not be sufficient to cover all potential product liability claims. Any lawsuit seeking significant monetary damages either in excess of our coverage, or outside of our coverage, may have a material adverse effect on our reputation, business and financial condition. We may not be able to secure additional product liability insurance coverage on commercially acceptable terms or at reasonable costs when needed, particularly if we do face liability for our products and are forced to make a claim under our policy.
Our batteries and our website, systems, and data we maintain may be subject to intentional disruption, other security incidents, or alleged violations of laws, regulations, or other obligations relating to data handling that could result in liability and adversely impact our reputation and future sales.
The research, development, and manufacturing of our batteries, supporting information systems (including internal systems such as research and development systems or external systems such as our website or third-parties’ systems), and data that we maintain may be subject to intentional or inadvertent disruption, security incidents, or violations of laws, regulations, or other obligations relating to data handling. Any such matters, or the perceptions that any of them have occurred, that could result in private claims, demands and litigation, regulatory investigations and other proceedings, and fines and other liabilities and adversely impact our reputation and future sales. We expect to face significant challenges with respect to information security and maintaining the security and integrity of our systems and other systems used in our business, as well as with respect to the data stored on or processed by these systems. Advances in technology, an increased level of sophistication, and an increased level of expertise of hackers, new discoveries in the field of cryptography or other factors can result in a compromise or breach of, or other security incident with respect to, the systems used in our business or of security measures used in our business to protect confidential information, personal information, and other data. Additionally, remote working further increases the security threats that we and our third-party service providers, suppliers, and customers face.
The availability and effectiveness of our batteries, and our ability to conduct our business and operations, depend on the continued operation of information technology and communications systems, some of which we have yet to develop or otherwise obtain the ability to use. Systems used in our business by us and our and our third-party service providers, suppliers, and customers, including data centers and other information technology systems, may be vulnerable to damage or interruption. Such systems could also be subject to break-ins, corporate sabotage or state-sponsored espionage, and intentional acts of vandalism, infection by ransomware, viruses, or other malware, as well as disruptions and security incidents as a result of non-technical issues, including intentional or inadvertent acts or omissions by employees, service providers, suppliers, customers or others, to among other things, properly implement our software and related security patches and updates. We use service providers to help provide certain services, and any such service providers face similar security and system disruption risks as us. Some of the systems used in our business are not and will not be fully redundant, and our disaster recovery planning cannot account for all eventualities. Any data security incidents or other disruptions to any data centers or other systems used in our business by us and our and our third-party service providers, suppliers, and customers could result in lengthy interruptions in our service and may adversely affect our business, prospects, financial condition and operating results.
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Significant capital and other resources may be required in efforts to protect against information security breaches, security incidents, and system disruptions, or to alleviate problems caused by actual or suspected information security breaches and other data security incidents and system disruptions. The resources required may increase over time as the methods used by hackers and others engaged in online criminal activities and otherwise seeking to obtain unauthorized access to systems or data, and to disrupt systems, are increasingly sophisticated and constantly evolving. In addition, the risk of cyberattacks may be heightened in connection with the Russian invasion of Ukraine. Such cyberattacks could disrupt the economy more generally and could also impact our operations either directly or indirectly.
Security breaches and/or incidents can also remain undetected for an extended period, including situations in which hackers mine data over time or optimize the timing and potency of their cyberattacks or disruptions. Any failure or perceived failure by us or our service providers to prevent information security breaches or other security incidents or system disruptions, or to comply with privacy policies or any actual or asserted legal obligations relating to privacy or information security, or any compromise of security that results in or is perceived or reported to result in unauthorized access to, or loss, theft, alteration, release, transfer, unavailability, or other processing of, our information, or any personal information or other customer data or confidential information, that we or our service providers maintain or otherwise process, could cause our potential customers to lose trust in us, result in loss or theft of proprietary or sensitive data and intellectual property, could harm our reputation and competitive position and could expose us to legal claims, demands, and litigation, regulatory investigations and proceedings, and fines, penalties, and other liability. Any such actual or perceived security breach, security incident or disruption could also divert the efforts of our technical and management personnel and could require us to incur significant costs and operational consequences in connection with investigating, remediating, eliminating and putting in place additional equipment and devices designed to prevent actual or perceived security breaches and other incidents and system disruptions.
Additionally, our handling of data relating to individuals is subject to a variety of laws and regulations relating to privacy, data protection, and data security, and may become subject to additional obligations, including contractual obligations, relating to our maintenance and other processing of this data. Laws, regulations, and other actual and potential obligations relating to privacy, data protection, and data security are evolving rapidly, and we expect to potentially be subject to new laws and regulations, or new interpretations of laws and regulations, in the future in various jurisdictions. These laws, regulations, and other obligations, and changes in their interpretation, could require us to modify our operations and practices, restrict our activities, and increase our costs, and it is possible that these laws, regulations, and other obligations may be inconsistent with one another or be interpreted or asserted to be inconsistent with our business or practices. Any failure or perceived failure to comply with any applicable laws, regulations, or other obligations relating to privacy, data protection, or data security could also result in regulatory investigations and proceedings, and misuse of or failure to secure data relating to individuals could also result in claims and proceedings against us by governmental entities or others, penalties and other liability, and damage to our reputation and credibility, and could have a negative impact on potential future revenues and profits.
Our insurance policies may not cover all or any of the potential losses arising from any such disruption, failure, security breach, or incident impacting our systems or data or third-party systems where information important to our business operations is maintained.
Our ability to manage our business and monitor results is highly dependent upon IT systems. A failure of these systems or our newly implemented ERP system, or our planned MES implementation could have a material adverse effect on our business.
We are highly dependent upon a variety of IT systems to operate our business. To continue to support our growth, we are making significant technological upgrades to our information systems. We implemented a new ERP system in the second quarter of 2022, and we will continue to make investment in improving and adding new functionality to the ERP system. We will also implement a new manufacturing execution system (“MES”) to perform various functions and improve on the efficiency of our business. These implementations are complicated, lengthy processes that have already required and will continue to require significant human investment, which diverts resources from other operations. Delays in the execution of these project plans, or any divergence from it, may result in cost overruns and, business interruptions. In addition, any divergence from our project plan could negatively impact the timing and/or extent of productivity and process enhancement we expect to achieve from the operation and enhancements to our ERP system and the implementation of our MES system. Failure to properly or adequately address any unaccounted for or unforeseen issues in successfully replacing our legacy systems could negatively impact our ability to support necessary business operations, including, without limitation, fulfilling federal, state and local reporting and filing requirements in a timely or accurate manner, or otherwise operate our business and production lines effectively. In addition, if any issues concerning the new systems result in, or contribute to, a delay in our timely reporting of our results of operations for any period or our not filing one or more periodic reports with the SEC on time, the price of our Class A Common Stock could decline substantially, and we could face costly lawsuits, including securities class actions, and also could impair our ability to raise necessary capital to run our operations and progress our product development efforts. Further, as we are dependent upon our ability to gather and promptly transmit accurate information to key decision makers, our business, results of operations and financial condition may be adversely affected if our information systems do not allow us to transmit accurate information, even for a short period of time. Failure to properly or adequately address these issues could negatively impact our ability to perform necessary business operations, which could adversely affect our reputation, competitive position, business, results of operations and financial condition.
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The operation of our new ERP system, and the planned implementation of our MES system could negatively impact the effectiveness of business operations.
Our ERP system is critical to our ability to accurately maintain books and records, provide important information to our management and prepare our consolidated financial statements. Use of our ERP system requires new business and financial processes, and any such changes involve risks, including potential errors, processing inefficiencies and loss of data. If the transition to our ERP system is not successful, and the new system and new processes do not operate as intended, the effectiveness of our internal control over financial reporting could be adversely affected and our ability to assess it adequately could be further impacted. If difficulties in operating our ERP system or related processes result in a material weakness in our internal control over financial reporting, a failure to remediate the material weakness could also negatively impact our ability to prepare our future financial statements in conformity with U.S. GAAP. If we experience ongoing disruptions with such implementation and/or are unable to remediate any such material weakness, such events could have a material adverse effect on our reputation, competitive position, business, results of operations and financial condition.
An MES is an information system that monitors and tracks the process of producing manufactured and research and development goods on the factory floor. The overall goal of the MES is to make certain that manufacturing operations are effectively executed to ensure development and production milestones and deliveries stay on schedule. Any impacts to our MES execution implementation timeline will prevent us from tracking and gathering accurate data associated with our production processes. Delays in our MES deployment could prevent us from accurately predicting product shipments and could result in negative impacts on our factory scaling efforts. If we experience ongoing disruptions with our MES implementation and/or are unable to remediate challenges as they arise, this could affect our reputation with customers, our competitive position, and could impact our ability to scale and grow our manufacturing operation.
The continued investment in ramping up our operations, enhancements to the ERP systems and implementation of our MES will involve substantial expenditures, as well as design, development and implementation activities. Until the new systems are fully implemented and operational, we expect to incur additional expenses and capital expenditures to implement and test the systems, and there can be no assurance that issues relating to the systems will not occur or be identified. Our business and results of operations may be adversely affected if we experience operating problems, additional costs, or cost overruns during the implementation process, or if the systems or any related processes change significantly.
We are subject to anti-corruption, anti-bribery, anti-money laundering, financial and economic sanctions and similar laws, and non-compliance with such laws can subject us to administrative, civil and criminal fines and penalties, collateral consequences, remedial measures and legal expenses, all of which could adversely affect our business, results of operations, financial condition and reputation.
We are subject to anti-corruption, anti-bribery, anti-money laundering, financial and economic sanctions and similar laws and regulations in various jurisdictions in which we conduct or in the future may conduct activities, including the U.S. Foreign Corrupt Practices Act (“FCPA”), the U.K. Bribery Act 2010, and other anti-corruption laws and regulations. The FCPA and the U.K. Bribery Act 2010 prohibit us and our officers, directors, employees and business partners acting on our behalf, including agents, from corruptly offering, promising, authorizing or providing anything of value to a “foreign official” for the purposes of influencing official decisions or obtaining or retaining business or otherwise obtaining favorable treatment. The FCPA also requires companies to make and keep books, records and accounts that accurately reflect transactions and dispositions of assets and to maintain a system of adequate internal accounting controls. The U.K. Bribery Act also prohibits non-governmental “commercial” bribery and soliciting or accepting bribes. A violation of these laws or regulations could adversely affect our business, results of operations, financial condition and reputation. Our policies and procedures designed to ensure compliance with these regulations may not be sufficient and our directors, officers, employees, representatives, consultants, agents, and business partners could engage in improper conduct for which we may be held responsible.
Non-compliance with anti-corruption, anti-bribery, anti-money laundering or financial and economic sanctions laws could subject us to whistleblower complaints, adverse media coverage, investigations, and severe administrative, civil and criminal sanctions, collateral consequences, remedial measures and legal expenses, all of which could materially and adversely affect our business, results of operations, financial condition and reputation. In addition, changes in economic sanctions laws in the future could adversely impact our business and investments in our Class A Common Stock.
Recent and potential tariffs imposed by the U.S. government or a global trade war could increase costs and inhibit future sales of our products, which could have a material adverse effect on our business, financial condition and results of operations.
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The U.S. government has and continues to make significant changes in U.S. trade policy and has taken certain actions that could negatively impact U.S. trade, including imposing tariffs on certain imported goods and prohibiting certain imports into the United States. In retaliation, China has implemented, and continues to evaluate imposing additional tariffs on a wide range of American products. There is also a concern that the imposition of additional tariffs by the United States could result in the adoption of tariffs by other countries as well, leading to a global trade war. More specifically, the U.S. government has from time to time imposed significant tariffs on and prohibited imports of certain product categories imported from China. Such tariffs and prohibitions, if expanded to other categories, could have a significant impact on our business, particularly the importation of parts of our batteries and certain production equipment that is manufactured in, or with inputs from, China. If we attempt to renegotiate prices with suppliers or diversify our supply chain in response to tariffs, such efforts may not yield immediate results or may be ineffective. We might also consider increasing prices to the end consumer; however, this could reduce the competitiveness of our products and adversely affect net sales. If we fail to manage these dynamics successfully, gross margins and profitability could be adversely affected. As of the date of this report, tariffs have not had a material impact on our business, but increased tariffs or trade restrictions implemented by the United States or other countries in connection with a global trade war could have a material adverse effect on our business, financial condition and results of operations. We cannot predict what actions may ultimately be taken with respect to tariffs or trade relations between the United States and China or other countries, what products may be subject to such actions, or what actions may be taken by the other countries in retaliation. Any further deterioration in the relations between the United States and China could exacerbate these actions and other governmental intervention.
The U.S. or foreign governments may take additional administrative, legislative, or regulatory action that could materially interfere with our ability to sell products in certain countries. Sustained uncertainty about, or worsening of, current global economic conditions and further escalation of trade tensions between the United States and its trading partners, especially China, could result in a global economic slowdown and long-term changes to global trade, including retaliatory trade restrictions which may have an adverse effect on our business, financial condition and results of operations. Any alterations to our business strategy or operations made in order to adapt to or comply with any such changes would be time-consuming and expensive, and certain of our competitors may be better suited to withstand or react to these changes.
Our management has limited experience in operating a public company.
Some of our executive officers have limited experience in the management of a publicly traded company. As a public company, we are subject to significant regulatory oversight and reporting obligations under federal securities laws, and certain executives’ limited experience in dealing with the increasingly complex laws pertaining to public companies could be a significant disadvantage in that it is likely that an increasing amount of their time may be devoted to these activities which will result in less time being devoted to the management and growth of our Company. We may not have adequate personnel with the appropriate level of knowledge, experience, and training in the accounting policies, practices or internal controls over financial reporting required of public companies in the United States.
Our Regulatory Risks
We are subject to substantial regulation and unfavorable changes to, or failure by us to comply with, these regulations could substantially harm our business and operating results.
Our batteries, and the sale of EVs and motor vehicles in general, are subject to substantial regulation under international, federal, state and local laws, including export control laws. We expect to incur significant costs in complying with these regulations. Regulations related to the battery and EV industry and alternative energy are currently evolving and we face risks associated with changes to these regulations as well as potentially also to heightened regulatory scrutiny. For example, laws and regulations may be passed that make manufacturers financially responsible for the collection, treatment, recycling and disposal of certain products, including batteries for EVs. The costs of complying with such requirements, as they now exist or as may be introduced in the future, and the associated administrative burden could adversely affect our financial condition and results of operations, particularly if we are unable to pass on such costs to our customers.
As a result of the Company’s status as a special purpose acquisition company before the Business Combination, we are also subject to regulations and legal circumstances that differ from other publicly traded companies that did not complete a business combination.
Internationally, there may be laws and regulations in jurisdictions we have not yet entered or laws we are unaware of in jurisdictions we have entered that may restrict our sales or other business practices. The laws in this area can be complex, difficult to interpret and may change over time. Continued regulatory limitations and other obstacles that may interfere with our ability to commercialize our products could have a negative and material impact on our business, prospects, financial condition and results of operations.
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To the extent regulations change, we may not comply with applicable international, federal, state or local regulations, which would have an adverse effect on our business. Compliance with changing regulations could be burdensome, time consuming, and expensive. To the extent compliance with new regulations is cost prohibitive, our business, prospects, financial condition and operating results would be adversely affected.
We are subject to requirements relating to environmental and safety regulations and environmental remediation matters which could adversely affect our business, results of operation and reputation.
We are subject to numerous federal, state and local environmental laws and regulations governing, among other things, solid and hazardous waste storage, treatment and disposal, and remediation of releases of hazardous materials. There are significant capital, operating and other costs associated with compliance with these environmental laws and regulations. Environmental laws and regulations, including used battery recycling, recovery and reuse requirements, may become more stringent in the future, which could increase costs of compliance or require us to manufacture our products using alternative technologies and materials.
Federal, state and local authorities also regulate a variety of matters, including, but not limited to, health, safety and permitting in addition to the environmental matters discussed above. New legislation and regulations may require us to make material changes to our operations, resulting in significant increases to the cost of production.
Our manufacturing process will have hazards such as but not limited to hazardous materials, machines with moving parts, and high voltage and/or high current electrical systems typical of large manufacturing equipment and related safety incidents. There may be safety incidents that damage machinery or our products, slow or stop production, or harm employees. Consequences may include litigation, regulation, fines, increased insurance premiums, mandates to temporarily halt production, workers’ compensation claims, or other actions that impact our company brand, finances, or ability to operate.
Risks Related to Ownership of Our Common Stock and Our Certificate of Incorporation and Bylaws Provisions
Our Class A Common Stock has been and may in the future continue to be subject to extreme volatility.
The trading price of our Class A Common Stock has been and may in the future continue to be subject to extreme volatility. For example, from November 27, 2020, the date our Class A Common Stock began trading on the New York Stock Exchange (“NYSE”), through December 31, 2022, our Class A Common Stock has experienced an intra-day trading high of $132.73 per share and an intra-day trading low of $5.11 per share. At certain times during such period, the daily fluctuations in the trading price of our Class A Common Stock were substantially greater than 10%. We cannot predict the magnitude of future fluctuations in the trading price of our Class A Common Stock. The trading price of our Class A Common Stock may be affected by a number of factors, including events described in the risk factors set forth in this Report and in our other reports filed with the SEC from time to time, as well as our operating results, financial condition and other events or factors. Any of the factors listed below could have a material adverse effect on your investment in our securities. Factors affecting the trading price of our securities may include:
•announcements by us or our competitors regarding technical developments and levels of performance achieved by our or their battery technologies;
•announcements by us regarding the timing of our production objectives, including regarding QS-0, QS-1, and QS-1 Expansion;
•announcements by us or Volkswagen regarding developments in our relationship with Volkswagen;
•our ability to bring our products and technologies to market on a timely basis, or at all;
•our operating results or development efforts failing to meet the expectation of securities analysts or investors in a particular period;
•actual or anticipated fluctuations in our quarterly financial results or the quarterly financial results of companies perceived to be similar to it;
•changes in the market’s expectations about our operating results or the EV industry;
•success of competitors actual or perceived development efforts;
•changes in financial estimates and recommendations by securities analysts concerning the Company or the battery industry in general;
•operating and share price performance of other companies that investors deem comparable to the Company;
•disputes or other developments related to proprietary rights, including patents, litigation matters and our ability to obtain intellectual property protection for our technologies;
•changes in laws and regulations affecting our business;
•our ability to meet compliance requirements;
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•commencement of, or involvement in, litigation involving the Company;
•changes in our capital structure, such as future issuances of securities or the incurrence of additional debt;
•the volume of shares of Class A Common Stock available for public sale;
•the level of demand for our stock, including the amount of short interest in our Class A Common Stock;
•any major change in our Board or management;
•sales of substantial amounts of the shares of Class A Common Stock by our directors, executive officers or significant stockholders or the perception that such sales could occur;
•changes in the estimates and assumptions that we make in the preparation of our financial statements may result in the fluctuation of our results of operations; and
•general economic and political conditions such as recessions, interest rates, fuel prices, international currency fluctuations, acts of terrorism, hostilities or the perception that hostilities may be imminent, and military conflict and acts of war.
Broad market and industry factors may materially harm the market price of our securities irrespective of our operating performance. The stock market has experienced price and volume fluctuations that have often been unrelated or disproportionate to the operating performance of the particular companies affected. The trading prices and valuations of securities may not be predictable. A loss of investor confidence in the market or the securities of other companies which investors perceive to be similar to the Company could depress the market price of our securities regardless of our business, prospects, financial conditions or results of operations. A decline in the market price of our securities also could adversely affect our ability to issue additional securities and our ability to obtain additional financing in the future.
Following certain periods of volatility in the market price of our securities, we may become the subject of securities litigation. We have experienced and may in the future experience additional litigation following periods of volatility. This type of litigation may result in substantial costs and a diversion of management’s attention and resources.
Sales of substantial amounts of our Class A Common Stock in the public markets, or the perception that such sales could occur, could reduce the price that our Class A Common Stock might otherwise attain.
Sales of a substantial number of shares of our Class A Common Stock in the public market, or the perception that such sales could occur, could adversely affect the market price of our Class A Common Stock and may make it more difficult for you to sell your Class A Common Stock at a time and price that you deem appropriate.
In connection with the Business Combination Agreement and the transactions contemplated by the Business Combination Agreement, certain holders of our securities entered into certain lock-up agreements, pursuant to which they agreed to certain restrictions on the transfer of our securities.
In addition, we have filed registration statements with the SEC to register shares for certain stockholders to sell such shares. We have also filed a registration statement with the SEC to register shares reserved for future issuance under our equity compensation plans. Subject to there being effective registration statements covering the sales of such shares, the satisfaction of applicable exercise periods and expiration of the lock-up agreements referred to above, the shares issued upon exercise of outstanding stock options and settlement of outstanding restricted stock units (“RSUs”) will be available for immediate resale in the open market.
Our business model of manufacturing solid-state batteries is capital-intensive, and we may not be able to raise additional capital on attractive terms, if at all, which could be dilutive to stockholders. If we cannot raise additional capital when needed, our operations and prospects could be materially and adversely affected.
The development, design, manufacture and sale of batteries is a capital-intensive business, which we have financed through joint venture arrangements, other third-party financings and issuance of additional equity. As a result of the capital-intensive nature of our business, we can be expected to continue to sustain substantial operating expenses without generating sufficient revenues to cover expenditures. Over time, we expect that we will need to raise additional funds, including through entry into new or extending existing joint venture arrangements, through the issuance of equity, equity-related or debt securities or through obtaining credit from financial institutions to fund, together with our principal sources of liquidity, ongoing costs such as research and development relating to our batteries, the construction of large factories, any significant unplanned or accelerated expenses, and new strategic investments. We cannot be certain that additional capital will be available on attractive terms, if at all, when needed, which could be dilutive to stockholders, and our financial condition, results of operations, business and prospects could be materially and adversely affected.
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Short sellers may engage in manipulative activity that could drive down the market price of our Class A Common Stock.
Short selling is the practice of selling securities that the seller does not own but rather has borrowed or intends to borrow from a third party with the intention of later buying lower priced identical securities to return to the lender. Accordingly, it is in the interest of a short seller of our Class A Common Stock for the price to decline. Some short sellers publish, or arrange for the publication of, opinions about or characterizations of our business which may create negative market momentum. Issuers, like us, whose securities have historically had limited trading history or volumes and/or have been susceptible to relatively high volatility levels can be particularly vulnerable to such short seller attacks. No assurances can be made that similar declines in the market price of our Class A Common Stock will not occur in the future, in connection with the activities of short sellers.
We are required to use judgments in making estimates and assumptions in the preparation of our consolidated financial statements, and our results of operations may fluctuate significantly as a result of changes to our estimates and assumptions.
Certain of our accounting policies require the application of subjective or complex judgments, often requiring us to make estimates about the effects of matters that are inherently uncertain and may change in subsequent periods, or for which the use of different estimates that could have reasonably been used in the current period would have had a material impact on our financial condition and results of operations.
All stock-based awards are required to be recognized based on their estimated grant date fair values. The amount recognized could vary depending on a number of assumptions or changes that may occur. We have granted stock-based awards to our Chief Executive Officer and other members of our management team pursuant to the Extraordinary Performance Award Program (the “EPA Program”). EPA Program awards have a vesting schedule based on the attainment of both performance (e.g., business milestones) and market conditions (e.g., stock price target).
For awards containing service, performance and market conditions, where all conditions must be satisfied prior to vesting, such as the EPA Program awards, compensation expense is recognized over the requisite service period, which is based on management’s estimate of the probability and timing of the performance condition being satisfied, assessed at each reporting period. These estimates require management's judgments and changes in the probability-based assumptions can materially affect the timing of recognition of stock-based compensation expense and consequently, the related amount recognized in our statements of operations and comprehensive income.
The dual class structure of our Common Stock has the effect of concentrating voting control with the current holders of Class B Common Stock. This will limit or preclude the ability of other stockholders to influence corporate matters, including the outcome of important transactions, including a change in control.
Shares of Class B Common Stock have 10 votes per share, while shares of Class A Common Stock have one vote per share. As of December 31, 2022, the holders of the Class B Common Stock (excluding the voting power of any shares of Class A Common Stock beneficially owned by such holders) control approximately 68.5% of the voting power of our capital stock and therefore collectively control matters submitted to our stockholders for approval, including the election of directors, amendments of our organizational documents and any merger, consolidation, sale of all or substantially all of our assets or other major corporate transactions. Even though these holders are not party to any agreement that requires them to vote together, they may have interests that differ from yours and may vote in a way with which you disagree, and which may be adverse to your interests. This concentrated control may have the effect of delaying, preventing or deterring a change in control of us, could deprive our stockholders of an opportunity to receive a premium for their capital stock as part of a sale of us, and might ultimately affect the market price of shares of our Class A Common Stock.
Our dual class structure may depress the trading price of the Class A Common Stock.
We cannot predict whether our dual class structure will result in a lower or more volatile market price of the Class A Common Stock or in adverse publicity or other adverse consequences. For example, certain index providers have announced restrictions on including companies with multiple-class share structures in certain of their indexes. S&P Dow Jones and FTSE Russell have announced changes to their eligibility criteria for inclusion of shares of public companies on certain indices, including the S&P 500, pursuant to which companies with multiple classes of shares of common stock are excluded. In addition, several stockholder advisory firms have announced their opposition to the use of multiple class structures. As a result, the dual class structure of our Common Stock may cause stockholder advisory firms to publish negative commentary about our corporate governance practices or otherwise seek to cause us to change our capital structure. Any such exclusion from indices or any actions or publications by stockholder advisory firms critical of our corporate governance practices or capital structure could adversely affect the value and trading market of the Class A Common Stock.
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Anti-takeover provisions in our Certificate of Incorporation or Bylaws and Delaware law could make an acquisition of us more difficult, limit attempts by our stockholders to replace or remove our management and limit the market price of our Class A Common Stock.
Our Certificate of Incorporation, our amended and restated Bylaws (the “Bylaws”) and Delaware law contain provisions which could have the effect of rendering more difficult, delaying or preventing an acquisition deemed undesirable by our Board. These provisions include:
•authorizing “blank check” preferred stock, which could be issued by our Board without stockholder approval and may contain voting, liquidation, dividend and other rights superior to the Common Stock;
•limiting the liability of, and providing indemnification to, our directors and officers;
•prohibiting cumulative voting in the election of directors;
•providing that vacancies on our Board may be filled only by majority of directors then in office of our Board, even though less than a quorum;
•prohibiting the ability of our stockholders to call special meetings;
•establishing advance notice procedures for stockholder proposals to be brought before an annual meeting, including proposed nominations of persons for election to our Board;
•requiring that, once there are no longer any outstanding shares of the Class B Common Stock, any action to be taken by our stockholders be effected at a duly called annual or special meeting and not by written consent;
•specifying that special meetings of our stockholders can be called only by a majority of our Board, the chair of our Board, or our Chief Executive Officer;
•requiring the approval of holders of at least two-thirds of the outstanding voting securities to amend the Bylaws and certain provisions of the Certificate of Incorporation once there are no longer any outstanding shares of Class B Common Stock; and
•reflecting two classes of Common Stock.
These provisions may frustrate or prevent any attempts by our stockholders to replace or remove our current management by making it more difficult for stockholders to replace members of our Board, which is responsible for appointing the members of our management. In addition, because we are incorporated in Delaware, we are governed by the provisions of Section 203 of the Delaware General Corporation Law (“DGCL”), which generally prohibits a Delaware corporation from engaging in any of a broad range of business combinations with any “interested” stockholder for a period of three years following the date on which the stockholder became an “interested” stockholder.
Our Bylaws provide, subject to limited exceptions, that the Court of Chancery of the State of Delaware and the federal district courts of the United States will be the sole and exclusive forum for certain stockholder litigation matters, which could limit our stockholders’ ability to obtain a chosen judicial forum for disputes with us or our directors, officers, employees or stockholders.
Our Bylaws provide that, unless otherwise consented to by us in writing, the Court of Chancery of the State of Delaware (or, if the Court of Chancery does not have jurisdiction, another State court in Delaware or the federal district court for the District of Delaware) shall, to the fullest extent permitted by law, be the sole and exclusive forum for the following types of actions or proceedings: (i) any derivative action or proceeding brought on behalf of the Company; (ii) any action asserting a claim of breach of a fiduciary duty owed by, or otherwise wrongdoing by, any of our directors, officers, or other employees to us or our stockholders; (iii) any action arising pursuant to any provision of the DGCL or the Certificate of Incorporation or the Bylaws; (iv) any action to interpret, apply, enforce or determine the validity of the Certificate of Incorporation or the Bylaws; or (v) any other action asserting a claim that is governed by the internal affairs doctrine, in all cases subject to the court having jurisdiction over indispensable parties named as defendants. The Bylaws further provide that, unless otherwise consented to by the Company in writing, the federal district courts of the United States will be the sole and exclusive forum for the resolution of any complaint asserting a cause of action arising under the Securities Act against any person in connection with any offering of the Company’s securities, including any auditor, underwriter, expert, control person or other defendant. These provisions would not apply to suits brought to enforce a duty or liability created by the Exchange Act.
Any person or entity purchasing, holding or otherwise acquiring any interest in our securities shall be deemed to have notice of and consented to these provisions. These choice of forum provisions may limit a stockholder’s ability to bring a claim in a judicial forum of its choosing for disputes with the Company or any of our directors, officers, other employees or stockholders, which may discourage lawsuits with respect to such claims. There is uncertainty as to whether a court would enforce such provisions, and the enforceability of similar choice of forum provisions in other companies’ charter documents has been challenged in legal proceedings. It is possible that a court could find these types of provisions to be inapplicable or unenforceable, and if a court were to find the choice of forum provisions contained in the Bylaws to be inapplicable or unenforceable in an action, we may incur additional costs associated with resolving such action in other jurisdictions, which could harm our business, operating results and financial condition.
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We do not expect to declare any dividends in the foreseeable future.
We do not anticipate declaring any cash dividends to holders of our Common Stock in the foreseeable future. Consequently, investors may need to rely on sales of their shares after price appreciation, which may never occur, as the only way to realize any future gains on their investment.
General Risk Factors
If we are unable to attract and retain key employees and qualified personnel, our ability to compete could be harmed.
Our success depends on our ability to attract and retain our executive officers, key employees and other qualified personnel, and our operations may be severely disrupted if we lose their services. As we build our brand and become more well known, there is increased risk that competitors or other companies will seek to hire our personnel. None of our employees are bound by a non-competition agreement. The failure to attract, integrate, train, motivate and retain these personnel could seriously harm our business and prospects.
In addition, we are highly dependent on the services of Jagdeep Singh, our Chief Executive Officer, and other senior technical and management personnel, including our executive officers, who would be difficult to replace. If Mr. Singh or other key personnel were to depart, this could negatively impact our prospects, triggering further departures and limiting the Company’s ability to operate and grow our business.
Our facilities or operations could be damaged or adversely affected as a result of natural disasters and other catastrophic events.
Our facilities or operations could be adversely affected by events outside of our control, such as natural disasters, wars, epidemics, pandemics, and other calamities. We cannot assure you that any backup systems will be adequate to protect us from the effects of fire, floods, typhoons, earthquakes, power loss, telecommunications failures, break-ins, war, riots, terrorist attacks or similar events. Any of the foregoing events may give rise to interruptions, breakdowns, system failures, technology platform failures or internet failures, which could cause the loss or corruption of data or malfunctions of software or hardware as well as adversely affect our ability to provide services.
Any financial or economic crisis, or perceived threat of such a crisis, including a significant decrease in consumer confidence, may materially and adversely affect our business, financial condition, and results of operations.
In recent years, the United States and global economies suffered dramatic downturns as the result of the COVID-19 pandemic, a deterioration in the credit markets and related financial crisis as well as a variety of other factors including, among other things, extreme volatility in security prices, severely diminished liquidity and credit availability, ratings downgrades of certain investments and declining valuations of others. The United States and certain foreign governments have taken unprecedented actions in an attempt to address and rectify these extreme market and economic conditions by providing liquidity and stability to the financial markets. If in future crises governments refuse to take such actions or if the actions taken by these governments are not successful, the resulting adverse economic conditions may negatively impact the demand for our solid-state battery cells and may negatively impact our ability to raise capital, if needed, on a timely basis and on acceptable terms or at all.
Our results of operations and financial condition could be materially affected by the enactment of legislation implementing changes in the U.S. or foreign taxation of business activities or the adoption of other tax reform policies.
As we expand the scale of our business activities, any changes in the U.S. or foreign taxation of such activities may increase our worldwide effective tax rate and harm our business, results of operations, and financial condition. For example, the current administration has proposed to increase the U.S. corporate income tax rate, increase U.S. taxation of international business operations, and impose a global minimum tax which has agreement from many countries and the Organisation for Economic Co-operation and Development. In addition, the Inflation Reduction Act of 2022 signed into law on August 16, 2022 (the “IRA”) includes numerous incentives and tax credits aimed at reducing the effects of climate change, such as the extension of electric vehicle charging infrastructure tax credits under Section 30C and tax credits for electric vehicles under Section 30D of the Internal Revenue Code of 1986 (the “Code”), the expansion of advanced manufacturing tax credits under Section 48C and enactment of advanced manufacturing production credits for eligible component production in the United States under Section 48X of the Code. Such tax credits may potentially benefit incumbents more than new entrants, and consequently have adverse competitive effects for new entrants. However, the full impact of the IRA cannot be known, and many of the IRA’s provisions are not self-executing and require further guidance from the IRS and Treasury Department, which we expect to be issued in the coming months and years. These incentives may also expire on a particular date, end when the allocated funding is exhausted, or be reduced or terminated as a matter of regulatory or legislative policy. Any other reduction in rebates, tax credits or other financial incentives could materially reduce the demand for EVs, which could adversely impact the battery demand for EVs, or materially reduce the amount of incentives available for the manufacture of our products and have an adverse impact on our business. The impact of future changes to U.S. and foreign tax law on our business is uncertain and could be adverse, and we will continue to monitor and assess the impact of any such changes.
Our ability to use our deferred tax assets to offset future taxable income is subject to certain limitations, which may have a material impact on our business, financial condition or results of operations.
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In general, under Section 382 of the Code, a corporation that undergoes an “ownership change” is subject to limitations on its ability to use its pre-change net operating loss carryforwards (“NOLs”), to offset future taxable income. The limitations apply if a corporation undergoes an “ownership change,” which is generally defined as a greater than 50 percentage point change (by value) in its equity ownership by certain stockholders over a three-year period. If we have experienced an ownership change at any time since our incorporation, we may already be subject to limitations on our ability to utilize our existing NOLs and other tax attributes to offset taxable income or tax liability. In addition, future changes in our stock ownership, which may be outside of our control, may trigger an ownership change. Similar provisions of state tax law may also apply to limit our use of accumulated state tax attributes. As a result, even if we earn net taxable income in the future, our ability to use it or our pre-change NOL carryforwards and other tax attributes to offset such taxable income or tax liability may be subject to limitations, which could potentially result in increased future income tax liability to us.
There is also a risk that changes in law or regulatory changes, including suspensions on the use of net operating losses or tax credits, possibly with retroactive effect, may result in our existing net operating losses or tax credits expiring or otherwise being unavailable to offset future income tax liabilities.
Due to such limitations and changes in law, certain of our deferred tax assets may expire unutilized or underutilized, which could prevent us from offsetting future taxable income. We continue to assess the realizability of our deferred tax assets in the future. Future adjustments in our valuation allowance may be required, which may have a material impact on our quarterly and annual operating results.
Our insurance coverage may not be adequate to protect us from all business risks.
We may be subject, in the ordinary course of business, to losses resulting from products liability, accidents, acts of God, and other claims against us, for which we may have no insurance coverage. As a general matter, the policies that we do have may include significant deductibles or self-insured retentions, and we cannot be certain that our insurance coverage will be sufficient to cover all future losses or claims against us. A loss that is uninsured or which exceeds policy limits may require us to pay substantial amounts, which could adversely affect our financial condition and operating results.
We have incurred and will continue to incur significant expenses and administrative burdens as a public company, which could have an adverse effect on our business, financial condition and results of operations.
Our Class A Common Stock is listed on the NYSE under the symbol “QS”. As a public company, we incur significant legal, accounting, administrative and other costs and expenses associated with corporate governance requirements and listing standards that are applicable to public companies. If we were to fail to meet such requirements and standards and if the NYSE were to consequently delist our Class A Common Stock from trading on its exchange and we are not able to list such securities on another national securities exchange, we expect such securities could be quoted on an over-the-counter market. If this were to occur, we and our stockholders could face significant material adverse consequences including:
•a limited availability of market quotations for our securities;
•reduced liquidity for our securities;
•a limited amount of news and analyst coverage; and
•a decreased ability to issue additional securities or obtain additional financing in the future.
In addition, the Sarbanes-Oxley Act of 2002 (the “Sarbanes-Oxley Act”), including the requirements of Section 404, as well as rules and regulations subsequently implemented by the SEC, the Dodd-Frank Wall Street Reform and Consumer Protection Act of 2010 and any rules and regulations promulgated and to be promulgated thereunder, the PCAOB and the securities exchanges, impose additional reporting and other obligations on public companies. Meeting the standards and controls required of a public company in the United States requires significant ongoing costs. It is possible that we will be required to further expand our employee base and hire additional employees to support our operations, particularly as such standards and controls continue to change over time, which will increase our operating costs in future periods.
Compliance with evolving public company requirements may continue to increase costs and make certain activities more time-consuming. For example, we have created new Board committees and adopted new internal controls and disclosure controls and procedures. In addition, expenses associated with SEC reporting requirements already have been and will continue to be incurred. Furthermore, if any issues in complying with those requirements are identified, such as material weakness in our internal controls that require a restatement of previously issued consolidated financial statements, we could incur additional costs rectifying those or new issues, and the existence of these issues could adversely affect our reputation or investor perceptions of it. It has also become more expensive to obtain director and officer liability insurance. Risks associated with our status as a public company may make it more difficult to attract and retain qualified persons to serve on our Board or as executive officers. The reporting and other obligations imposed by these rules and regulations have resulted in and may continue to result in significant accounting, administrative, financial compliance and legal costs. These costs have required and may continue to require us to divert a significant amount of money that could otherwise be used to expand the business and achieve strategic objectives. Advocacy efforts by stockholders and third parties may also prompt additional changes in governance and reporting requirements, which could further increase costs.
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If we experience material weaknesses in the future or otherwise fail to maintain an effective system of internal controls in the future, our business could be adversely affected, and we may not be able to accurately report our financial condition or results of operations which may adversely affect investor confidence in us and, as a result, the value of our Class A Common Stock.
As a public company, we are required, under Section 404 of the Sarbanes-Oxley Act, to furnish annual reports by management on, among other things, the effectiveness of our internal control over financial reporting. This assessment needs to include disclosure of any material weaknesses identified by our management in our internal control over financial reporting. A material weakness is a deficiency or combination of deficiencies in internal control over financial reporting, such that there is a reasonable possibility that a material misstatement of a company’s annual and interim financial statements will not be detected or prevented on a timely basis. If we identify one or more material weaknesses in our internal control over financial reporting, we will be unable to assert that our internal controls are effective. The effectiveness of our controls and procedures may be limited by a variety of factors, including:
•faulty human judgment and simple errors, omissions or mistakes;
•fraudulent action of an individual or collusion of two or more people;
•inappropriate management override of procedures; and
•the possibility that any enhancements to controls and procedures may still not be adequate to assure timely and accurate financial control.
Pursuant to the Sarbanes-Oxley Act and the rules and regulations promulgated by the SEC, we are required to furnish in this Report a report by our management regarding the effectiveness of our internal control over financial reporting. The report includes, among other things, an assessment of the effectiveness of our internal control over financial reporting as of the end of our fiscal year, including a statement as to whether or not our internal control over financial reporting is effective. This assessment must include disclosure of any material weaknesses in our internal control over financial reporting identified by management. As of September 30, 2021, we remediated the material weakness that was identified in connection with the restatement of previously issued consolidated financial statements as of and for the period ended December 31, 2020. While we believe our internal control over financial reporting is currently effective, the effectiveness of our internal controls in future periods is subject to the risk that our controls may become inadequate because of changes in conditions. Establishing, testing and maintaining an effective system of internal control over financial reporting requires significant resources and time commitments on the part of our management and our finance staff, may require additional staffing and infrastructure investments and would increase our costs of doing business.
In addition, under the federal securities laws, our auditors are required to express an opinion on the effectiveness of our internal controls. If we are unable to confirm that our internal control over financial reporting is effective, or if our independent registered public accounting firm is unable to express an opinion on the effectiveness of our internal controls, we could lose investor confidence in the accuracy and completeness of our financial reports, which could cause the price of our Class A Common Stock to decline.
Our disclosure controls and procedures may not prevent or detect all errors or acts of fraud.
We are subject to the periodic reporting requirements of the Exchange Act. We designed our disclosure controls and procedures to provide reasonable assurance that information we must disclose in reports we file or submit under the Exchange Act is accumulated, communicated to management, recorded, processed, summarized and reported within the time periods specified in the rules and forms of the SEC. We believe that any disclosure controls and procedures, no matter how well-conceived and operated, can provide only reasonable, not absolute, assurance that the objectives of the control system are met.
These inherent limitations include the realities that judgments in decision-making can be faulty, and that breakdowns can occur because of simple error or mistake. Additionally, controls can be circumvented by the individual acts of some persons, by collusion of two or more people or by an unauthorized override of the controls. Accordingly, because of the inherent limitations in our control system, misstatements due to error or fraud may occur and not be detected.
If securities or industry analysts do not publish or cease publishing research or reports about us, our business, or the market in which we operate, or if they change their recommendations regarding our securities adversely, the price and trading volume of our securities could decline.
The trading market for our securities will be influenced by the research and reports that industry or securities analysts may publish about us, our business, market or competitors. If any of the analysts who cover us change their recommendation regarding our shares of Class A Common Stock adversely, or provide more favorable relative recommendations about our competitors, the price of our shares of Class A Common Stock would likely decline. If any analyst who cover us were to cease our coverage of us or fail to regularly publish reports on us, we could lose visibility in the financial markets, which in turn could cause our share price or trading volume to decline.
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