机译:用于锂离子电池的核壳纳米结构电极的表面覆盖率依赖性循环稳定性
Division of Materials Science Engineering Hanyang University Seoul Republic of Korea;
Division of Materials Science Engineering Hanyang University Seoul Republic of Korea;
Department of Mechanical Engineering and Civil and Environmental Engineering Northwestern University Evanston USA;
WCU Department of Energy Engineering Hanyang University Seoul Republic of Korea;
School of Nano and Advanced Materials Engineering Changwon National University Changwon Kyungnam Republic of Korea;
School of Nano and Advanced Materials Engineering Changwon National University Changwon Kyungnam Republic of Korea;
Department of Mechanical Engineering and Civil and Environmental Engineering Northwestern University Evanston USA;
Department of Materials Science and Engineering University of Illinois at Urbana Champaign Urbana USA;
WCU Department of Energy Engineering Hanyang University Seoul Republic of Korea;
carbon nanotubes; core-shell nanostructures; manganese oxide; lithium ion batteries; surface coverage;
机译:用于锂离子电池正极的高压循环核壳结构电极的电化学稳定性
机译:具有长循环稳定性的可充电锂离子电池纳米结构Mn3O4 / C电极的一步热解合成
机译:NiO包覆的ZnO纳米棒电极的自组装及其核壳纳米结构作为可充电锂离子电池的负极材料
机译:基于硫的电极和改性锂电电极进行稳定,更安全的锂 - 硫磺电池。骑自行车,阻抗,建筑
机译:超级电容器和锂离子电池应用中电极纳米结构材料的合成与表征
机译:钒氧化物对锂离子电池中TiO2-rGO电极的理化性能稳定性和锂离子嵌入的影响
机译:锂离子电池:中孔和纳米结构TiO2层,用氮掺杂碳泡沫上的超高负载作为锂离子电池的柔性和独立电极(小48/2016)