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Posted on November 15, 2016

Glass in batteries to increase performance and safety

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Steve Martin, an Anson Marston Distinguished Professor in Engineering at Iowa State University and an associate of the U.S. Department of Energy's Ames Laboratory, has researched battery materials for 30-plus years. Specifically, he and his graduate students have been studying and measuring the basic properties of glassy solids: How do ions move through them? What about their mechanical robustness? How about their thermal stability? And their chemical stability?
Why such basic studies?
Martin, who teaches and researches in Iowa State's department of materials science and engineering, has long thought that using glassy solids as the electrolytes in batteries would make for safer, more powerful batteries. But there was limited research funding for battery studies and most of that was directed toward liquid-electrolyte batteries that have had problems with fires and energy capacity. So Martin worked hard for any support that allowed him to study fundamental properties of materials with potential for improving battery performance. That work was all about laying a foundation that would enable Martin and his research group to develop new, "all-solid-state" batteries whenever research funding was available.
Well, times are changing. Millions of Americans now rely on battery-powered phones, devices and cars. Asian countries now dominate the entire battery industry. And so America's research agenda is starting to include money for research and development of battery technology and a domestic battery industry.
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Case in point: Martin has a new three-year, $2.5 million grant from the U.S. Department of Energy's Advanced Research Projects Agency - Energy and its new Integration and Optimization of Novel Ion-Conducting Solids program. There's additional, cost-share funding from Iowa State and the Iowa Energy Center.
In addition to Martin's research, the funding will support the work of Jing Xu, a newly hired Iowa State assistant professor of materials science and engineering, three postdoctoral researchers, two doctoral students and three undergraduates.
"This is my dream-come-true project," Martin said. "This is what I've been working on for 36 years."
When he began his doctoral studies in 1980 at Purdue University in West Lafayette, Indiana, Martin began looking for new materials that could improve battery performance. He eventually settled on using glass as a solid electrolyte in batteries.
Battery electrolytes allow ions - atoms that have lost or gained electrons and are therefore positively or negatively charged - to flow back and forth between a battery's electron-accepting cathode and electron-losing anode. The resulting electrochemical reactions produce electricity and power our devices and electric vehicles.
Commonly used organic liquid electrolytes in lithium-ion batteries are a problem, Martin said. They're as chemically reactive as gasoline and so they can - and do - catch on fire. Batteries based on them can also leak the flammable liquid. To make them safer, manufacturers slash the energy levels of the batteries.
"It works," Martin said. "But it operates at a fraction of its theoretical maximum energy density."
Martin thought using a stable, solid electrolyte would be a better, safer way to build batteries. But it can be a challenge to move ions through solids. That's why it has taken decades for Martin and his research group to understand the movement of ions through glass.
By using certain sulfide glasses, he's been able to accelerate that movement, or conductivity. The new grant will allow Martin to demonstrate that glassy solids can be a low-cost, high-performance, safe and stable electrolyte for lithium-ion batteries.
"And so maybe you're recharging your device every week instead of daily," Martin said. "Or maybe an electric vehicle that can now go 40 miles on a charge will be able to go 200 miles."
The grant will help Martin purchase equipment to scale up his lab's glass production. If the production and studies go well, Martin said the grant encourages technology transfer to a spin-off company or to industry.
All that has Martin thinking big about a dream project that was decades in the making: "Our goal is not just to make safer batteries, but also to increase energy capacity. We think we can increase capacity by a factor of 10."
Source and top image: Iowa State University
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