······························································· Abstraet 第一章绪论 1.1铿离子电池(LIB)的现状及发展趋势·················· 1.2LIB负极材料研究现状····················‘”“’“””‘ 1.3报告研究的背景······················””””””’‘”“‘’ 1.4报告研究的内容···························”””’“’‘”” 第二章试样制备及实验方法 2.1实验仪器和设备·······································”‘ 2.2隔膜、试剂与电解液······································· 2.3试样的制备······’‘·””””””’‘’“””””””’‘.”””’ 2.4试样电化学性能的测试································· 2.5试样密度的测定与微观结构分析·······”······ 2.6试样表面SEI膜的傅立叶红外(FT工R)分析········· 第三章热处理工艺制度对试样的微观结构及充、放电性能 的影响 3.1热处理工艺制度对试样的密度及微观结构的影响 3.2热处理工艺制度对试样充、放电性能的影响········· 3.3试样的宏观电化学性能与微观结构的关系········· 3.4小结························································· 第四章试样与电解液的相容性 4.1C3000_:试样在不同电解液中的恒电流充、放电性能 4.2C300。_:试样在不同电解液中的循环伏安特性······ 4.3C3000_:试样表面在不同电解液中形成的SEI膜的FT工R 分析························································· 4.4小结 第五章影响C3000一2试样用作L旧负极材料时充、放电性能的 其他次要因数 (1) (1) (4) (7) (8) (9) (10) (12) ( . 14) (15) (16) (18) (26) (27) (28) (30) (32) (35)5.1炭膜中导电剂的含量、C3000_:试样的粒度、炭膜中粘结 剂的含量以及充、放电电流密度对C3000一:试样充、放 电性能的影响······························””‘’“”’“” 5.2实验结果与分析·························“”””‘””’ 5.3小结······················································ 第六章C300。一2试样循环性能的估测 6.1循环伏安法估测试样循环性能的原理············ 6.2实验结果·························”””二’“”””‘”’“ 6.3分析讨论·····················‘二”””””‘”’“””‘’.’ 6.4小结······················································ 结论···························································· 致谢·······························································