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High Pressure Research
An International Journal
Volume 26, 2006 - Issue 2: Novel Superhard Materials
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Original Articles

Conditions and mechanism of formation of nano-polycrystalline diamonds on direct transformation from graphite and non-graphitic carbon at high pressure and temperature

H. Sumiya Electronics and Materials R&D Laboratories, Sumitomo Electric Industries, 1-1-1, Koya-kita, Itami, 664-0016, Hyogo, JapanCorrespondence[email protected]
,
H. Yusa Advanced Materials Laboratory, National Institute for Materials Science, Tsukuba, 305-0044, Japan
,
T. Inoue Geodynamics Research Center, Ehime University, Matsuyama, 790-8577, Japan
,
H. Ofuji Geodynamics Research Center, Ehime University, Matsuyama, 790-8577, Japan
&
T. Irifune Geodynamics Research Center, Ehime University, Matsuyama, 790-8577, Japan
Pages 63-69 | Received 18 Feb 2006, Published online: 21 Aug 2006

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Hideaki Kawamura & Hiroaki Ohfuji. (2020) Nano-polycrystalline diamond synthesized through the decomposition of stearic acid. High Pressure Research 40:1, pages 162-174.
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Tetsuo Irifune, Chiaki Ueda, Shohei Ohshita, Hiroaki Ohfuji, Takehiro Kunimoto & Toru Shinmei. (2020) Synthesis of nano-polycrystalline diamond from glassy carbon at pressures up to 25 GPa. High Pressure Research 40:1, pages 96-106.
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V. V. Brazhkin, A. G. Lyapin, V. L. Solozhenko, V. I. Bugakov, S. N. Dub, O. O. Kurakevych, M. V. Kondrin & E. L. Gromnitskaya. (2008) High‐temperature Transitions of C60 at Moderate Pressures. Fullerenes, Nanotubes and Carbon Nanostructures 16:5-6, pages 475-485.
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V. V. Brazhkin. (2007) High-pressure synthesized materials: treasures and hints. High Pressure Research 27:3, pages 333-351.
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L. Dubrovinsky, N. Dubrovinskaia, I. Kantor, F. Nestola & D. Gatta. (2006) High-brilliance X-ray system for high-pressure in-house research: applications for studies of superhard materials. High Pressure Research 26:2, pages 137-143.
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