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University of Sydney team advances rechargeable zinc-air batteries with bimetallic oxide–graphene hybrid electrocatalyst

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University of Sydney team advances rechargeable zinc-air batteries with bimetallic oxide–graphene hybrid electrocatalyst. Zinc-air batteries are powered by zinc metal and oxygen from the air. Zinc-air batteries are powered by zinc metal and oxygen from the air.

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ARPA-E awarding $36M to 22 projects in RANGE program for transformative EV storage

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ARPA-E’s new program, Robust Affordable Next Generation Energy Storage Systems (RANGE) ( earlier post ), aims to accelerate widespread EV adoption by dramatically improving driving range and reliability, and by providing low-cost, low-carbon alternatives to today’s vehicles. Dendrite Free Zinc?Air Air Battery.

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NYSERDA awards $1.4M to 6 projects for advanced energy storage technologies; Electromotive and Ioxus for heavy-duty hybrids

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Through collaboration with SUNY’s College of Nanoscale Science and Engineering (CNSE) and Rensselaer Polytechnic Institute, BESS Technologies aims to develop and commercialize an electrode that incorporates graphene-based materials to create lithium-ion batteries that can store more energy and charge faster than those currently deployed.

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ARPA-E Selects 37 Projects for $106M in Funding in Second Round; Electrofuels, Better Batteries and Carbon Capture

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This process is less than 1% efficient at converting sunlight to stored chemical energy. The critical barrier to wider deployment of electric vehicles is the high cost and low energy of today’s batteries. Zn-Air Battery : Zinc Flow Air Battery (ZFAB), the Next Generation Energy Storage for Transportation.

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