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机译:Ti3C2TX MXENE纳米片作为SI阳极上的稳健和导电,显着提高了电化学锂储存性能
Tongji Univ Sch Chem Sci &
Engn Shanghai 200092 Peoples R China;
Tongji Univ Sch Chem Sci &
Engn Shanghai 200092 Peoples R China;
Jiangxi Univ Sci &
Technol Int Res Inst Minerals Met &
Mat Nanchang 330013 Jiangxi Peoples R China;
Monash Univ Dept Chem Engn Clayton Vic 3800 Australia;
Tongji Univ Sch Chem Sci &
Engn Shanghai 200092 Peoples R China;
Tongji Univ Sch Chem Sci &
Engn Shanghai 200092 Peoples R China;
Jinggangshan Univ Sch Chem &
Chem Engn Jian 343009 Jiangxi Peoples R China;
Shanghai Univ Inst Nanochem &
Nanobiol Shanghai 200444 Peoples R China;
Tongji Univ Sch Chem Sci &
Engn Shanghai 200092 Peoples R China;
Tongji Univ Sch Chem Sci &
Engn Shanghai 200092 Peoples R China;
MXene; silicon; structural stability; lithium-ion batteries; mechanical simulations;
机译:Ti3C2TX MXENE纳米片作为SI阳极上的稳健和导电,显着提高了电化学锂储存性能
机译:通过锂离子电池覆盖MXENE纳米片阳极增强电化学性能
机译:用Ti3C2TX MXENENOELS组成LI1.2NI0.13CO0.13MN0.54O2的LI1.2NI0.13CO0.13MN0.54O2的电化学性能
机译:使用商业有前途的水性导电粘合剂增强Si /石墨复合阳极的电化学性能
机译:通过“化学锚定”和锂阳极改性全面改善锂 - 硫电池的电化学性能
机译:高性能锂离子存储用硫化锌阳极增强的循环稳定性:导电性混合基质对活性ZnS的影响
机译:将SNS2量子点与氮气掺杂Ti3C2TX MXENE纳米片集成为鲁棒钠储存性能