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机译:基于Li4SiO4的混合界面的合理调整,具有独特的逐步普通术前普通术和高速锂阳极
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
Beijing Inst Technol Beijing Key Lab Environm Sci &
Engn Sch Mat Sci &
Engn Beijing 100081 Peoples R China;
silica; metallic Li; anode; cycle stability; dendrite;
机译:基于Li4SiO4的混合界面的合理调整,具有独特的逐步普通术前普通术和高速锂阳极
机译:合理设计的碳包覆的Fe304同轴多孔碳纳米管具有分层的孔隙率,可作为锂离子电池的高倍率阳极
机译:用孔隙率调整的石墨烯包裹SnO2作为锂电池阳极高倍率性能的策略
机译:薄锂箔在锂离子电池生产中阳极直接接触前序的应用
机译:锂离子电池的阳极预级
机译:Fe3O4空心纳米球包覆的球形石墨复合材料:锂离子电池的高容量和超长循环寿命阳极材料
机译:内盖:分子定制的锂 - 芳烃络合物使高容量锂离子电池阳极的化学预介质(Angew.Chem.Int.Sc.34/2020)