![]() ![]() Lithium-ion (Li-ion) has powered batteries for portable consumable electronics, electric vehicles (EVs), and other products for over two decades. In fact, depending on the source, “years” might be more appropriate. From this foundation an exciting opportunity to achieve a quantum leap in battery performance has emerged.įor more on the ARPA-E BEEST program, click HERE.Lithium-ion is having a bad day – or year. BEEST set an aggressive target for researchers that catalyzed the formation of the Stanford and then QuantumScape teams, and gave them both a motivation and resources to pursue an ambitious new technology. While their initial “all-electron” design did not work, the QuantumScape story is a great example of ARPA-E’s critical role in the energy innovation ecosystem. This funding brought VW’s total investment in QuantumScape to more than $300 million and total funding to almost $500M from a $1.5M ARPA-E grant in 2010. ![]() This culminated in a 2018 investment of $100 million by VW creating a new joint venture to allow QuantumScape to focus on reaching industrial levels of production, with an aim of producing EV batteries by 2024. On the back of this technical success additional funding was secured by QuantumScape including funding from Kleiner Perkins, Prelude Ventures, Lightspeed Venture Partners, Capricorn Investment Group, Khosla Ventures, and Breakthrough Energy Ventures. This partnership eventually enabled QuantumScape to reach the crucial technical milestone of successfully demonstrating their sample battery cells to automotive performance standards. This new path remained aligned with the ambitious performance objectives of the BEEST program and led to a partnership with Volkswagen (VW) in 2012 to work on EV batteries. After pursuing their initial technical concept under their ARPA-E award, the QuantumScape team pivoted to a Li-metal solid-state battery technical approach. The BEEST award created the opportunity for an entrepreneurial team to coalesce around the Standford effort and QuantumScape was founded to build a business around the Stanford technology. The proposed device would use electrons to store energy resulting in projected higher power and energy-density than Li-Ion batteries. The Stanford University team’s project sought to develop an ambitious “all-electron” battery concept using an advanced structural design that separating critical battery functions. The selected projects pursued a variety of technical approaches, including radical improvement of lithium-ion technologies, designs using alternative metals such as magnesium, sodium, or zinc, and new lithium-sulfur and lithium-air batteries.īEEST embodied one of ARPA-E’s core principles to set ambitious performance goals, select high-potential projects and teams to pursue ambitious technical solutions. Teams specifically targeted batteries with double the energy density, and one-third the cost, of then state-of-the-art lithium-ion battery packs. In April 2010, ARPA-E announced over $35 million in funds for 10 projects in the BEEST program to develop innovative rechargeable battery technologies that would enable Electric Vehicles and Plug-in Hybrid Electric Vehicles (EV/PHEVs) to meet or beat the price and performance of gasoline-powered cars. QuantumScape spun out of a project at Stanford University that was awarded $1.5 million to develop transportation battery technology under the Batteries for Electrical Storage in Transportation (BEEST) program. On September 3, 2020, battery producer QuantumScape announced its initial public offering (IPO) on the New York Stock Exchange through a reverse-merger with the special public acquisition company Kensington Capital Acquisition Corp. ![]()
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