Microstructure Design of Graphite in Nanoscale | |
Chuan Xiu-Yun | |
刊名 | JOURNAL OF INORGANIC MATERIALS |
2017 | |
关键词 | graphite graphene layer by layer materials nanostructure review INTERCALATION COMPOUNDS GRAPHENE MECHANISM |
DOI | 10.15541/jim20170011 |
英文摘要 | According to microstructural features of graphite, this paper reviewed the processing and dressing methods of graphite and proposed the nanostructured and functionalized engineering concept of graphite principally. The microstructure and properties of graphite could be modified and designed by using several approaches, such as introduction of nanoparticles by both synthesis of graphite intercalation compounds and preparation of graphite alloy. Active functional space for function particles could be induced by pore and porous structure formed through oxidation and activation. It is possible to synthesize graphene like flakes through exfoliation graphite and stripping layered structured graphite, to prepare the layer by layer functional materials. Due to the layered structure, graphite has strong anisotropic properties, which can be decreased by modification of flake direction and then becomes the isotropic graphitic functional materials. It suggests that microstructure design and nanostructured engineering in nanoscale can improve the properties of graphite, and obtain cheaper functional materials from natural graphite by characterization and nanostructure engineering, for wide potential applications, such as energy storage materials and graphene like materials.; National Natural Science Foundation of China [51774016, 51274015, 40972027]; SCI(E); ARTICLE; 11; 1121-1127; 32 |
语种 | 英语 |
内容类型 | 期刊论文 |
源URL | [http://ir.pku.edu.cn/handle/20.500.11897/484553] |
专题 | 地球与空间科学学院 |
推荐引用方式 GB/T 7714 | Chuan Xiu-Yun. Microstructure Design of Graphite in Nanoscale[J]. JOURNAL OF INORGANIC MATERIALS,2017. |
APA | Chuan Xiu-Yun.(2017).Microstructure Design of Graphite in Nanoscale.JOURNAL OF INORGANIC MATERIALS. |
MLA | Chuan Xiu-Yun."Microstructure Design of Graphite in Nanoscale".JOURNAL OF INORGANIC MATERIALS (2017). |
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