Researchers develop novel supercapacitor architecture that provides two times more energy and power compared to supercapacitors commercially available today
Researchers at the University of California, Riverside have developed a novel nanometer scale ruthenium oxide anchored nanocarbon graphene foam architecture that improves the performance of supercapacitors, a development that could mean faster acceleration in electric vehicles and longer battery life in portable electronics.
The researchers found that supercapacitors, an energy storage device like batteries and fuel cells, based on transition metal oxide modified nanocarbon graphene foam electrode could work safely in aqueous electrolyte and deliver two times more energy and power compared to supercapacitors commercially available today.
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The Latest on: Supercapacitors
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The Latest on: Supercapacitors
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Smart Materials Research and Device Technology (SMaRDT) Group, Department of Pure and Applied Chemistry, University of Strathclyde, Thomas Graham Building, Glasgow G1 1XL, U.K.
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KYOCERA AVX has expanded its PrizmaCap line of rugged, high-capacitance, and high-reliability supercapacitors with two new Gen II series.
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