新能源进展
新能源進展
신능원진전
Advances in New and Renewable Enengy
2014年
1期
49-58
,共10页
谢波%汪靖伦%麦永津%邵丹%孙铭浩%张灵志
謝波%汪靖倫%麥永津%邵丹%孫銘浩%張靈誌
사파%왕정륜%맥영진%소단%손명호%장령지
锂二次电池%有机硅%负极%表面改性
鋰二次電池%有機硅%負極%錶麵改性
리이차전지%유궤규%부겁%표면개성
Lithium secondary battery%organosilicon%anode%surface modification
锂二次电池中电极与电解液之间的相容性对电池的电化学性能有重要影响,利用表面改性剂可以改善电极与电解液之间的相容性和界面性能,提高电池的性能。本文总结和归纳了有机硅表面改性剂对锂二次电池负极(锂金属、石墨和硅负极)改性的研究进展,展望了有机硅表面改性剂在锂二次电池中的应用前景。
鋰二次電池中電極與電解液之間的相容性對電池的電化學性能有重要影響,利用錶麵改性劑可以改善電極與電解液之間的相容性和界麵性能,提高電池的性能。本文總結和歸納瞭有機硅錶麵改性劑對鋰二次電池負極(鋰金屬、石墨和硅負極)改性的研究進展,展望瞭有機硅錶麵改性劑在鋰二次電池中的應用前景。
리이차전지중전겁여전해액지간적상용성대전지적전화학성능유중요영향,이용표면개성제가이개선전겁여전해액지간적상용성화계면성능,제고전지적성능。본문총결화귀납료유궤규표면개성제대리이차전지부겁(리금속、석묵화규부겁)개성적연구진전,전망료유궤규표면개성제재리이차전지중적응용전경。
The compatibility between electrode and electrolyte has a critical effect on the electrochemical performances of lithium secondary battery. The interface can be improved by using electrolyte additives to modify the surface of electrode, thus improving the electrochemical performances of the cells. The recent progress of organosilicon compounds as the modification agents for anodes (lithium metal, graphite and silicon anode) in lithium secondary batteries was summarized and introduced in this paper. The future development and application of organosilicon surface modification agents was prospected.
