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Chin. Phys. B, 2016, Vol. 25(8): 088104    DOI: 10.1088/1674-1056/25/8/088104
INTERDISCIPLINARY PHYSICS AND RELATED AREAS OF SCIENCE AND TECHNOLOGY Prev   Next  

Effects of Mg on diamond growth and properties in Fe-C system under high pressure and high temperature condition

Guo-Feng Huang(黄国锋)1, You-Jin Zheng(郑友进)2, Zhan-Chang Li(李战厂)1, Qiang Gao(高强)1, Zhuo Ma(马卓)1, Si-Ming Shi(史思明)1, Bao-Gang Jiang(姜宝钢)1, He Zhao(赵赫)1
1 Inor Mongolia Key Laboratory of High-pressure Phase Functional Materials, Chifeng University, Chifeng 024000, China;
2 Laboratory of Superhard Materials, Mudanjiang Normal College, Mudanjiang 157011, China
Abstract  Diamond crystal crystallized in Fe-Mg-C system with Archimedes buoyancy as a driving force is established under high pressure and high temperature conditions. The experimental results indicate that the addition of the Mg element results in the nitrogen concentration increasing from 87 ppm to 271 ppm in the diamond structure. The occurrence of the 100 plane reveals that the surface character is remarkably changed due to the addition of Mg. Micro-Raman spectra indicate that the half width of full maximum is in a range of 3.01 cm-1-3.26 cm-1, implying an extremely good quality of diamond specimens in crystallization.
Keywords:  high pressure and high temperature      Archimedes buoyancy process      diamond crystal      Mg metal  
Received:  26 January 2016      Revised:  24 March 2016      Published:  05 August 2016
PACS:  81.10.Fq (Growth from melts; zone melting and refining)  
  61.72.S- (Impurities in crystals)  
  74.62.Dh (Effects of crystal defects, doping and substitution)  
  78.55.-m (Photoluminescence, properties and materials)  
Fund: Project supported by the Natural Science Foundation of Inner Mongolia Autonomous Region, China (Grant No. 2013MS0809) and the Open Project of Key Laboratory of Functional Materials Physics and Chemistry (Jilin Normal University) of the Ministry of Education of China (Grant No. 201608).
Corresponding Authors:  Guo-Feng Huang     E-mail:  hgfsyn0925@163.com

Cite this article: 

Guo-Feng Huang(黄国锋), You-Jin Zheng(郑友进), Zhan-Chang Li(李战厂), Qiang Gao(高强), Zhuo Ma(马卓), Si-Ming Shi(史思明), Bao-Gang Jiang(姜宝钢), He Zhao(赵赫) Effects of Mg on diamond growth and properties in Fe-C system under high pressure and high temperature condition 2016 Chin. Phys. B 25 088104

[1] Han Q G, Liu B, Hu M H, Li Z C, Jia X P, Li M Z, Ma H A, et al. 2011 Cryst. Growth Des. 11 1000
[2] Tallaire A, Achard J, Silva F, Brinza O and Gicquel A 2013 C. R. Physique 14 169
[3] Zhigadlo N D 2014 J. Crystal Growth 395 1
[4] Sumiya H, Harano K and Tamasaku K 2015 Diam. Relat. Mater. 58 221
[5] Huang G F, Jia X P, Yin J W, Ma H A and Zheng Y J 2013 Refractory Metals and Hard Materials 41 517
[6] Palyanov Y N, Khokhryakov A F, Borzdov Y M and Kupriyanov I N 2013 Cryst. Growth Des. 13 5411
[7] Zheng Y J, Huang G F, Li Z C and Zuo G H 2014 Chin. Phys. B 23 118102
[8] Yan B M, Jia X P, Fang C, Chen N, Li Y D, Sun S S and Ma H A 2016 Refractory Metals and Hard Materials 54 309
[9] Pal'yanov Y N, Sokol A G, Borzdov Y M, Khokhryakov A F, Shatsky A F and Sobolev N V 1999 Diam. Relat. Mater. 8 1118
[10] Hisao K, Minoru A and Shinobu Y 1999 Diam. Relat. Mater. 8 1441
[11] Palyanov Y N, Sokol A G, Khokhryakov A F and Kruk A N 2015 Russian Geology and Geophysics 56 196
[12] Andreyev A V and Kanda H 1997 Diam. Relat. Mater. 6 28
[13] Khokhryakov A F, Sokol A G, Borzdov Y M and Palyanov Y N 2015 J. Crystal Growth 426 276
[14] Palyanov Y N, Borzdov Y M, Kupriyanov N I, Bataleva Y V and Khohkhryakov A 2015 Diam. Relat. Mater. 58 40
[15] Palyanov Y N, Borzdov Y M,.Kupriyanov I N, Khokhryakov A F and Nechaev D V 2015 Cryst. Eng. Comm. 17 4928
[16] Pal'yanov Y N, Kupriyanov I N, Borzdov Y M, Sokol A G and Khokhryakov A F 2009 Cryst. Growth Des. 9 2922
[17] Palyanov Y N, Kupriyanov I N, Alexander G S, Alexander F K and Borzdov Y M 2011 Cryst. Growth Des. 11 2599
[18] Fang C, Jia X P, Chen N, Zhou Z X, Li Y D, Li Y and Ma H A 2015 Acta Phys. Sin. 64 128101 (in Chinese)
[19] Huang G F, Zheng Y J, Peng L Z, Li Z C, Jia X P and Ma H A 2015 Cryst. Eng. Comm. 17 6504
[20] Tian Y, Jia X P, Zang C Y, Li S S, Xiao H Y, Zhang Y F, Huang G F, Li R, Han Q G, Ma L Q, Li Y, Chen X Z, Zhang C and Ma H A 2009 Chin. Sci. Bull. 54 1459
[21] Kovalenko T V and Ivakhnenko S A 2013 J. Superhard Materials 35 131
[22] Huang G F, Jia X P, Li Y, Hu M H, Li Z C, Yan B M and Ma H A 2011 Chin. Phys. B 20 078103
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