The reporter recently learned from the Hefei Research Institute of the Chinese Academy of Sciences that the Institute's intelligence has achieved important results in the development of high-performance graphene lithium-ion batteries, and developed a three-dimensional graphene nanocomposite lithium-ion battery material with high capacity and long life. The research results were published in the international authoritative journal "Advanced Materials" in the field of materials, and were selected as the first paper. Butterfly Valve,Wafer Butterfly Valve,4 Butterfly Valve,3 Butterfly Valve Wuzhong Instrument Co., Ltd. , https://www.wzivalve.com
From portable electronic devices to new energy electric vehicles, there is an urgent need for high-performance lithium-ion batteries. As the core of lithium ion batteries, electrode active materials are generally required to have high capacity and energy density, long-term cycle stability and safety. Researchers at the University of Illinois collaborated with the University of Illinois at Urbana-Champaign to develop a three-dimensional graphene-based composite battery material with high active material loading, short ion-electron transport paths, and the assembly of electrode materials into batteries without using any Additives such as binders and conductive agents have high capacity and excellent cycle stability. The cathode material of the three-dimensional graphene/vanadium pentoxide battery developed under the condition of full charge/discharge of 12 minutes, the battery capacity is more than 200 mAh/g after 2000 cycles, while the current commercial lithium battery is less than charge and discharge in the cycle. After 1000 cycles, the battery capacity is generally less than 150 mAh/g.