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Diamond Deposition on Graphite in Hydrogen Microwave Plasma - Pages 12-18

Kaili Yao, Bing Dai, Victor Ralchenko, Guoyang Shu, Jiwen Zhao, Kang Liu, Lei Yang, Andrey Bolshakov, Jiecai Han and Jiaqi Zhu

DOI: https://doi.org/10.6000/2369-3355.2018.05.01.2

Published: 16 August 2018

 

Abstract: Hydrogen plasma etching of graphite generates radicals that can be used for diamond synthesis by chemical vapor deposition (CVD). We studied the etching of polycrystalline graphite by a hydrogen microwave plasma, growth of diamond particles of the non-seeded graphite substrates, and characterized the diamond morphology, grain size distribution, growth rate, and phase purity. The graphite substrates served simultaneously as a carbon source, this being the specific feature of the process. A disorder of the graphite surface structure reduces as the result of the etching as revealed with Raman spectroscopy. The diamond growth rate of 3 – 5 µm/h was achieved, the quality of the produced diamond grains improving with growth time due to inherently nonstationary graphite etching process.

Keywords: Microwave plasma, diamond deposition, hydrogen plasma, graphite, etching.

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