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机译:锂离子电池电极中石墨烯层取向获得高倍率能力和各向异性的工程
High Temperature and Energy Materials Laboratory Department of Metallurgical Engineering and Materials Science Indian Institute of Technology (NT) Bombay Powai, Mumbai 400076, India,School of Engineering, Brown University Providence, Rl 02912, USA;
School of Engineering, Brown University Providence, Rl 02912, USA;
School of Engineering, Brown University Providence, Rl 02912, USA;
General Motors Global R&.D Center Warren, Ml 48090, USA;
School of Engineering, Brown University Providence, Rl 02912, USA;
School of Engineering, Brown University Providence, Rl 02912, USA;
机译:利用多层WS_2和还原的氧化石墨烯之间的协同相互作用来改善锂离子电池的锂存储,循环能力和倍率能力
机译:通过TEM识别石墨的石墨烯层中的纳米孔和锂离子电池阳极的高倍率放电能力
机译:锂富含分层/尖晶石异质结构特殊形态阴极材料,具有锂离子电池的高速率能力
机译:Li-Mn-氧化物的高速率电极性能通过用于锂离子电池的MnO_2纳米片的重新组装合成
机译:锂离子电池电极应用的三维石墨烯基复合材料
机译:纳米Li4Ti5O12聚集体夹在碳纳米管和石墨烯网络之间的多层电极用于大功率锂离子电池
机译:高功率锂离子电池电极表面非晶化TiO 2 @石墨烯杂化物的表面工程和设计策略
机译:具有LiCoO(sub 2)正极的完全无机薄膜锂离子电池中碳负极的性质