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机译:微介孔碳球中井分散超细COS2纳米晶体的理性设计,具有高性能锂硫电池的协同作用
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Qingdao Univ Sci &
Technol Shandong Key Lab Biochem Anal Coll Chem &
Mol Engn Qingdao 266042 Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
Northeast Normal Univ Dept Chem 5268 Renmin St Changchun 130024 Jilin Peoples R China;
机译:微介孔碳球中井分散超细COS2纳米晶体的理性设计,具有高性能锂硫电池的协同作用
机译:3D蜂窝状石墨碳中纳米晶体COS2的研究具有高性能锂硫电池的协同作用
机译:3D掺杂碳纳米片框架的合理设计将超细ZnO纳米晶体封装为锂离子电池中的优质性能阳极材料
机译:高性能可充电锂 - 硫电池多孔碳纳米纤维的合理设计与优化
机译:杂原子掺杂石墨烯纳米管作为高性能锂硫电池的碳基质材料
机译:锂硫电池介孔碳空心球孔中少量MoS2的封装
机译:3D蜂窝状石墨碳嵌入纳米晶体COS2,具有高性能锂硫电池的协同作用