Growth of diamond microcrystals by the oriented attachment mechanism at high pressure and high temperature

S. V. Kidalov; F. M. Shakhov; A. V. Shvidchenko; A. N. Smirnov; V. V. Sokolov; M. A. Yagovkina; A. Ya. Vul’

doi:10.1134/S1063785017010084

Growth of diamond microcrystals by the oriented attachment mechanism at high pressure and high temperature

Authors: Kidalov S.V.¹, Shakhov F.M.¹, Shvidchenko A.V.¹, Smirnov A.N.¹, Sokolov V.V.¹, Yagovkina M.A.¹, Vul’ A.Y.¹
Affiliations:
1. Ioffe Physical Technical Institute
Issue: Vol 43, No 1 (2017)
Pages: 53-56
Section: Article
URL: https://bakhtiniada.ru/1063-7850/article/view/202334
DOI: https://doi.org/10.1134/S1063785017010084
ID: 202334

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Abstract

For the first time it has been experimentally shown that a powder of detonation nanodiamonds (DND) and a saturated acyclic hydrocarbon, mono- or dibasic alcohol, used as the reaction mixture after treatment at high pressures (5–8 GPa) and high temperatures (1300–1800°C) results in the formation of diamond single crystals up to 15 micron in size. The Raman spectrum indicates that the diamonds have a perfect of crystal structure. It has been suggested that the oriented attachment mechanism is responsible for growth of micrometer-size diamond single crystals out of DND particles with sizes of about 5 nm under these technological conditions.

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Growth of diamond microcrystals by the oriented attachment mechanism at high pressure and high temperature

Full Text

Abstract

About the authors

S. V. Kidalov

F. M. Shakhov

A. V. Shvidchenko

A. N. Smirnov

V. V. Sokolov

M. A. Yagovkina

A. Ya. Vul’

Supplementary files