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机译:具有高互连孔建筑的CO-FE混合金属磷化纳米芯片作为锂 - 硫电池有效的多硫化物介质
Univ Technol Sydney Ctr Clean Energy Technol Sch Math &
Phys Sci Fac Sci Sydney NSW 2007 Australia;
Changan Univ Sch Mat Sci &
Engn Xian 710064 Shaanxi Peoples R China;
Univ Technol Sydney Ctr Clean Energy Technol Sch Math &
Phys Sci Fac Sci Sydney NSW 2007 Australia;
Univ Technol Sydney Ctr Clean Energy Technol Sch Math &
Phys Sci Fac Sci Sydney NSW 2007 Australia;
Univ Technol Sydney Ctr Clean Energy Technol Sch Math &
Phys Sci Fac Sci Sydney NSW 2007 Australia;
Yangzhou Univ Coll Chem &
Chem Engn Yangzhou 225002 Jiangsu Peoples R China;
Univ Technol Sydney Ctr Clean Energy Technol Sch Math &
Phys Sci Fac Sci Sydney NSW 2007 Australia;
Tsinghua Univ Grad Sch Shenzhen Shenzhen 518055 Peoples R China;
Tsinghua Univ Grad Sch Shenzhen Shenzhen 518055 Peoples R China;
Univ Technol Sydney Ctr Clean Energy Technol Sch Math &
Phys Sci Fac Sci Sydney NSW 2007 Australia;
lithium-sulfur batteries; metal phosphide; nanocubes; interconnected-pore architecture; chemical binding;
机译:具有高互连孔建筑的CO-FE混合金属磷化纳米芯片作为锂 - 硫电池有效的多硫化物介质
机译:具有垂直一维纳米通道的二维金属 - 有机框架,如高效锂 - 硫磺电池的精确多硫化物筛
机译:金属和极性CO9S8镶嵌碳中空纳米多核,作为锂 - 硫电池的高效多硫化物介质
机译:具有金属沉积的石墨阴极和锂多硫化物阴极电解液的高性能锂硫电池
机译:金属氧化物作为锂硫电池锂多硫化物吸附剂
机译:分层TiO2球作为锂硫电池的高效多硫化物主体
机译:高效锂硫磺电池的无定形钴磷化物增强多硫化物约束和电化学动力学