Researchers at the Tokyo Institute of Technology, in collaboration with Toyota and two other research institutions, have designed and tested solid-state batteries using a novel type of solid electrolyte. In “High-power all-solid-state batteries using sulfide superionic conductors,” published in Nature Energy, Yuki Kato and team members explain the advantages of superionic materials as solid electrolytes…. Read more »
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New electrolyte for solid-state batteries combines polymer and glass
Scientists at the DOE’s Lawrence Berkeley National Laboratory have developed a novel electrolyte that addresses many of the problems of solid electrolytes by combining the two primary types – polymer and glass. There are two kinds of solid electrolytes – polymer and glass or ceramic – and each has its own set of challenges. Polymer… Read more »
ARPA-E awards $6.6 million to two projects for solid-state battery electrolytes
The DOE’s Advanced Research Projects Agency – Energy (ARPA-E) has awarded $125 million to 41 energy-related R&D projects under its 2015 OPEN funding program. Two of these have to do with ceramic electrolytes for solid-state EV batteries. A consortium led by the University of Michigan won $3.5 million for a project called “Transitioning Advanced Ceramic… Read more »
Hitachi researchers demonstrate thermally durable solid-state Li-ion battery
A research team sponsored by Hitachi and Tohoku University’s Advanced Institute for Material Research (AIMR) has demonstrated technology that reduces the internal resistance of all-solid-state Li-ion batteries through the use of LiBH4-based complex hydrides as solid electrolytes. A conventional Li-ion battery uses a volatile organic electrolyte solution with a maximum operating temperature around 60˚ C…. Read more »
Liquid or solid-state? Clay electrolyte offers the best features of both
Bentonite clay is a malleable material with myriad applications, from oil drilling to agriculture to construction. Now researchers at Rice University have taken advantage of its qualities to develop a new class of Li-ion battery electrolytes that offer the structural stability of a solid and the wettability of a liquid. In “Quasi-Solid Electrolytes for High… Read more »
Vacuum maker Dyson acquires solid-state battery pioneer Sakti3
Dyson, the manufacturer of high-tech vacuum cleaners and restroom hand dryers, has acquired Michigan startup Sakti3 for $90 million in cash, as reported by Quartz. Founder and CEO Ann Marie Sastry will oversee development of her company’s solid-state battery technology as an executive for Dyson. UK-based Dyson, which invested $15 million in Sakti3 last March, also… Read more »
Solid-state battery innovator Seeo acquired by Bosch
Giant German automotive supplier Bosch has announced that it will acquire the Silicon Valley startup Seeo, a pioneer in solid-state battery technology. Seeo’s cell design combines a solid lithium metal anode with a conventional porous lithium iron phosphate cathode and Seeo’s proprietary DryLite solid polymer electrolyte. Seeo says its cells achieve specific energy of around… Read more »
Bolloré’s electric Bluecar, with novel solid-state batteries, coming to London
Electric car-sharing service Autolib has become a hit in Paris and two other French cities since its 2011 launch, and now boasts a fleet of over 3,500 EVs. Corporate parent the Bolloré Group also has a fleet of electric Bluebuses operating on Parisian streets, and has been working on bringing electric car sharing to Indianapolis… Read more »
PATHION’s superionic solid-state electrolytes point to more powerful and safer batteries
Solid-state electrolytes are the talk of the town these days. California-based PATHION has been working to commercialize solid electrolytes since its founding in 2012, building on its exclusive license from Los Alamos National Laboratories for a promising material called Lithium-Rich Anti-Perovskite (LiRAP). At the recent Materials Research Conference, PATHION presented two new superionic solid-state electrolytes built upon… Read more »
Stanford team improves potential of solid-state electrolytes by enhancing ionic conductivity
Solid-state electrolytes’ potential advantages in energy density and safety compared with conventional liquid electrolytes have made them the hottest topic in the battery world. However, there are several challenges to be overcome, including the low mobility of lithium ions in solid electrolytes. Now, a team of Stanford researchers have used ceramic nanowire fillers to enhance… Read more »