Published: Sept. 18, 2013

A cutting-edge battery technology developed at the University of baby直播app Boulder that could allow tomorrow鈥檚 electric vehicles to travel twice as far on a charge is now closer to becoming a commercial reality.

CU鈥檚 Technology Transfer Office has completed an agreement with Solid Power LLC鈥攁 CU-Boulder spinoff company founded by Se-Hee Lee and Conrad Stoldt, both associate professors of mechanical engineering鈥攆or the development and commercialization of an innovative solid-state rechargeable battery. Solid Power also was recently awarded a $3.4 million grant from the U.S. Department of Energy鈥檚 Advanced Research Projects Agency-Energy for the purpose of creating a battery that can improve electric vehicle driving range.

The rechargeable batteries that are standard in today鈥檚 electric vehicles鈥攁s well as in a host of consumer electronics, such as mobile phones and laptops鈥攁re lithium-ion batteries, which generate electricity when lithium ions move back and forth between electrodes in a liquid electrolyte solution.

Engineers and chemists have long known that using lithium metal as the anode in a rechargeable battery鈥攁s opposed to the conventional carbon materials that are used as the anode in conventional lithium-ion batteries鈥攃an dramatically increase its energy density. But using lithium metal, a highly reactive solid, in conjunction with a liquid electrolyte is extremely hazardous because it increases the chance of a thermal runaway reaction that can result in a fire or an explosion.

Today鈥檚 lithium-ion batteries require a bulky amount of devices to protect and cool the batteries. A fire onboard a Boeing Dreamliner in January that temporarily grounded the new class of plane was linked to its onboard lithium-ion battery.

Lee and Stoldt solved the safety concerns around using lithium metal by eliminating the liquid electrolyte. Instead, the pair built an entirely solid-state battery that uses a ceramic electrolyte to separate the lithium metal anode from the cathode. Because the solid-state battery is far safer, it requires less protective packaging, which in turn could reduce the weight of the battery system in electric vehicles and help extend their range.

Research into the development of solid-state batteries has gone on for a couple of decades, but it has been difficult to create a solid electrolyte that allowed the ions to pass through it as easily as a liquid electrolyte.

鈥淭he problem has always been that solid electrolytes had very poor performance making their use in rechargeable batteries impractical,鈥 Stoldt said. 鈥淗owever, the last decade has seen a resurgence in the development of new solid electrolytes with ionic conductivities that rival their liquid counterparts.鈥

The critical innovation added by Lee and Stoldt that allows their solid-state lithium battery to out-perform standard lithium-ion batteries is the construction of the cathode, the part of the battery that attracts the positively charged lithium ions once they鈥檙e discharged from the lithium metal. Instead of using a solid mass of material, Lee and Stoldt created a 鈥渃omposite cathode,鈥 essentially small particles of cathode material held together with solid electrolyte and infused with an additive that increases its electrical conductivity. This configuration allows ions and electrons to move more easily within the cathode.

鈥淭he real innovation is an all-solid composite cathode that is based upon an iron-sulfur chemistry that we developed at CU,鈥 Stoldt said. 鈥淭his new, low-cost chemistry has a capacity that鈥檚 nearly 10 times greater than state-of-the-art cathodes.鈥

Last year, Lee and Stoldt partnered with Douglas Campbell, a small-business and early-stage product development veteran, to spin out Solid Power.

鈥淲e鈥檙e very excited about the opportunity to achieve commercial success for the all solid-state rechargeable battery,鈥 said Campbell, Solid Power鈥檚 president. 鈥淲e鈥檙e actively engaging industrial commercial partners to assist in commercialization and expect to have prototype products ready for in-field testing within 18 to 24 months.鈥 Important to the early success of the company has been its incubation within CU-Boulder鈥檚 College of Engineering and Applied Science鈥檚 applied energy storage research center, a part of the college鈥檚 energy systems and environmental sustainability initiative.

Solid Power is a member of Rocky Mountain Innosphere, a nonprofit technology incubator headquartered in Fort Collins, Colo., with a mission to accelerate the development and success of high-impact scientific and technology startup companies.

鈥淲e鈥檙e very excited to be working with Solid Power鈥檚 team to get them to the next level,鈥 said Mike Freeman, Innosphere鈥檚 CEO. 鈥淭his is a big deal to baby直播app鈥檚 clean-tech space. Solid Power鈥檚 batteries will have a huge impact in the EV market, and they have a potential $20 billion market for their technology.鈥

Learn more about Solid Power at .

Contact:
Conrad Stoldt, 303-492-7698
Conrad.Stoldt@colorado.edu
Se-Hee Lee, 303-492-7889
Sehee.Lee@colorado.edu
Douglas Campbell, 720-300-8167
Doug.Campbell@solidpowerbattery.com
Lindsay Lennox, CU Technology Transfer Office, 303-735-5518
Lindsay.Lennox@cu.edu
Laura Snider, CU media relations, 303-735-0528
Laura.Snider@colorado.edu

鈥淭he real innovation is an all-solid composite cathode that is based upon an iron-sulfur chemistry that we developed at CU,鈥 said Conrad Stoldt, associate professor of mechanical engineering. 鈥淭his new, low-cost chemistry has a capacity that鈥檚 nearly 10 times greater than state-of-the-art cathodes.鈥