电化学石墨化：将无定形碳高效转化为纳米结构石墨

Electrochemical Graphitization: An Efficient Conversion of Amorphous Carbons to Nanostructured Graphites.

作者信息

Jin Xianbo, He Rui, Dai Sheng

机构信息

Hubei Key Laboratory of Electrochemical Power Sources, College of Chemistry and Molecular Sciences, Wuhan University, Wuhan, 430072, P. R. China.

Chemical Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN, 37831, USA.

出版信息

Chemistry. 2017 Aug 25;23(48):11455-11459. doi: 10.1002/chem.201701620. Epub 2017 Jul 26.

DOI:10.1002/chem.201701620

PMID:28598566

Abstract

This concept paper describes a new electrochemical method for the graphitization of amorphous carbons. The graphitization is achieved by a simple cathodic polarization of the carbons at merely ≈1100 K in molten CaCl . This electrochemical process is applicable to both graphitizable and non-graphitizable carbons, generating porous graphitic structures of high-crystallinity nanosheets. The transformation of carbon blacks, microspheres, and fibers to porous graphites, hollow graphite spheres, and pipes with porous shells have been demonstrated and the potential graphitization mechanism discussed.

摘要

这篇概念文件描述了一种用于非晶态碳石墨化的新型电化学方法。通过在熔融氯化钙中仅在约1100 K的温度下对碳进行简单的阴极极化来实现石墨化。这种电化学过程适用于可石墨化和不可石墨化的碳，生成具有高结晶度纳米片的多孔石墨结构。已经证明了炭黑、微球和纤维向多孔石墨、空心石墨球和具有多孔壳的管道的转变，并讨论了潜在的石墨化机理。

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电化学石墨化：将无定形碳高效转化为纳米结构石墨

Electrochemical Graphitization: An Efficient Conversion of Amorphous Carbons to Nanostructured Graphites.

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