Recharging Technique Makes Zinc-Air Batteries a Viable Alternative

Dean Sigler Batteries, Sustainable Aviation Leave a Comment

Lithium-ion and lithium-polymer batteries face several problems: they are not making great leaps forward that we hope for, they occasionally burst into flame, and they weigh too much to be all that practical in a pure-electric airplane.  Researchers peer over the alternatives, magnesium, manganese, aluminum, and now, after several false starts in recent years, zinc. University of Sydney scientists claim to have found a three-stage method of charging zinc-air cells that promises greater energy density and longevity.  One selling point – the relative abundance and low cost of zinc, such cells are cheaper to produce than lithium equivalents.  They theoretically can store up to five times more energy than lithium-ion cells, are less prone to burst into flame, and are even more environmentally friendly. What’s not to like?  Until now, they’ve been difficult to recharge.  ReVolt tried developing a rechargeable zinc-air battery with an ARPA-E (Advanced Research Projects Agency – Energy) grant, but gave up after two years. Explaining that …

Stanford scientists develop high-efficiency zinc-air battery

Dean Sigler Electric Powerplants, Sustainable Aviation Leave a Comment

Battery researchers, including those at Stanford University, have been focusing for years on improving lithium batteries of multiple chemistries.  While IBM tries to create the 500-mile battery based on lithium-air reactions, and ReVolt in Portland works on perfecting a long-lasting zinc-air cell, Stanford researcher Hongjie Dai and his team claim to have “developed an advanced zinc-air battery with higher catalytic activity and durability than similar batteries made with costly platinum and iridium catalysts.” The resulting battery, detailed in the May 7 online edition of the journal Nature Communications, could be the forerunner of something with greater endurance and lower cost than current efforts. Mark Schwartz, writing for Stanford, quotes Dai, a professor of chemistry at the University and lead author of the study: “There have been increasing demands for high-performance, inexpensive and safe batteries for portable electronics, electric vehicles and other energy storage applications.  Metal-air batteries offer a possible low-cost solution.” Lithium-ion batteries, despite their limited energy density (energy stored per …