可用于储能器件的石墨烯杂化材料研究
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- 英文论文题名:Graphene-based Hybrids for Energy Storage Applications
- 论文作者:智林杰
- 英文论文作者:Linjie Zhi ; National Center for Nanoscience and Technology
- 年:2016
- 作者机构:国家纳米科学中心;
- 论文关键词:石墨烯 ; 杂化材料 ; 储能 ; 界面
- 会议召开时间:2016-07-01
- 会议录名称:中国化学会第30届学术年会摘要集-第三十九分会:纳米碳材料
- 语种:中文
- 分类号:TQ127.11
- 学会代码:ZGHY
- 会议名称:中国化学会第30届学术年会-第三十九分会 ; 纳米碳材料
- 会议地点:中国辽宁大连
- 主办单位:中国化学会
- 学会名称:中国化学会
- 页数:1
- 文件大小:126k
- 原文格式:D
- 会议级别:全国
摘要
能源存储与转化材料研究的关键是深入理解材料的工作机制。因此,建立合理可靠的结构-性能关系是进一步优化这类材料的有效途径。石墨烯/无机杂化材料的可控构建与界面设计为我们提供了良好的电极材料结构-性能关系研究平台。通过系统深入研究杂化材料的界面与材料性能的关系,使我们进一步了解到电极材料的工作机制,进而为设计更高性能的电极材料提供实验支持。
In this work, graphene-based materials with well-defined structures and functions, such as the graphene/SnXn nanocomposites with rationallly desinged interfaces, the graphene/Si nanocomposites with systematic structure control, have been developed by the rational design of various chemical approaches. Interestingly, the rational design of structures and functions of the electrode material provides efficient strategies for the development of high performance materials in lithium ion batteries.
In this work, graphene-based materials with well-defined structures and functions, such as the graphene/SnXn nanocomposites with rationallly desinged interfaces, the graphene/Si nanocomposites with systematic structure control, have been developed by the rational design of various chemical approaches. Interestingly, the rational design of structures and functions of the electrode material provides efficient strategies for the development of high performance materials in lithium ion batteries.
引文
[3]B Luo,Y Fang,B Wang,J Zhou,H Song,and L Zhi,Energy Environ.Sci.2012,5,5226.
[4]B Luo,B Wang,X Li,Y Jia,M Liang,L Zhi,Adv.Mater.,2012,24,3538.
[5]B Wang,B Luo,X Li,L Zhi,Mater.Today,2012,15(12),544-552.
[6]B Luo,B Wang,X Li,Y Jia,M Liang,L Zhi,Adv.Mater.,2012,24,3538-3543.
[7]B Wang,X Li,X Zhang,B Luo,Y Zhang,L Zhi,Nano Lett.2013,13,5578-5584.
[8]B Wang,X Li,X Zhang,B Luo,Y Zhang,L Zhi,Adv.Mater.,2013,25,3560-3565.
[9]D Kong,H He,Q Song,B Wang,L Wei,Q Yang,L Zhi,Energy Environ.Sci.,2014,7(10),3320.
[10]B Wang,X Li,B Luo,L Hao,M Zhou,X Zhang,Z Fan,L Zhi,Adv.Mater.,2015,27(9),1526.
[11]B Luo,L Zhi,Energy Environ.Sci.,2015,8(2),456-477.
[4]B Luo,B Wang,X Li,Y Jia,M Liang,L Zhi,Adv.Mater.,2012,24,3538.
[5]B Wang,B Luo,X Li,L Zhi,Mater.Today,2012,15(12),544-552.
[6]B Luo,B Wang,X Li,Y Jia,M Liang,L Zhi,Adv.Mater.,2012,24,3538-3543.
[7]B Wang,X Li,X Zhang,B Luo,Y Zhang,L Zhi,Nano Lett.2013,13,5578-5584.
[8]B Wang,X Li,X Zhang,B Luo,Y Zhang,L Zhi,Adv.Mater.,2013,25,3560-3565.
[9]D Kong,H He,Q Song,B Wang,L Wei,Q Yang,L Zhi,Energy Environ.Sci.,2014,7(10),3320.
[10]B Wang,X Li,B Luo,L Hao,M Zhou,X Zhang,Z Fan,L Zhi,Adv.Mater.,2015,27(9),1526.
[11]B Luo,L Zhi,Energy Environ.Sci.,2015,8(2),456-477.