Published in

Royal Society of Chemistry, RSC Advances, 7(5), p. 4822-4830, 2015

DOI: 10.1039/c4ra09058f

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Mass spectrometric investigation of the roles of several chemical intermediates in diamond synthesis

This paper is made freely available by the publisher.
This paper is made freely available by the publisher.

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Abstract

Mass spectrometric studies were performed to investigate several key chemical intermediates and identify their roles in diamond synthesis in a C2H4/C2H2/O2 combustion-flame chemical vapour deposition process. The diamond deposition rate and diamond quality were correlated with the growth parameters, the distance from the substrate to the torch nozzle and the oxygen–fuel ratio. The dependences of the intermediate concentrations as functions of the distance to the torch nozzle and oxygen–fuel ratio were established. It was suggested that an appropriate balance between high hydrocarbon intermediates (C2H2+, C3H3+, C3H4+, C4H2+, C4H3+) and carbon etchants (O−, OH−, and H3O+) was required to achieve effective diamond deposition. Influence of the resonant vibrational excitation of ethylene molecules on diamond deposition was investigated. The resonant vibrational excitation stimulated the formation of high hydrocarbon intermediates while suppressing the yield of carbon etchants, which suggested the possibility of modifying the combustion process in a way that favours diamond synthesis through resonant vibrational excitation.