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Yankun Chen and Biao Wang
Multigraphene was prepared via a one-pot pyrolysis method using polypropylene (PP) as the carbon source and diatomite (DM) as the catalyst. The obtained graphene had 4?6 layers and a D/G intensity ratio of 0.70 and a 2D/G intensity ratio of 0.72, indicat...
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Konstantin G. Mikheev, Tatyana N. Mogileva, Arseniy E. Fateev, Nicholas A. Nunn, Olga A. Shenderova and Gennady M. Mikheev
Laser-induced graphitization of 100 nm monocrystals of diamond particles synthesized by high-pressure high-temperature (HP-HT) methods is not typically observed. The current study demonstrates the graphitization of 150 nm HP-HT nanodiamond particles in c...
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Min Il Kim, Jong Hoon Cho, Byong Chol Bai and Ji Sun Im
The graphite block as a phase change materials (PCMs) was manufactured by graphitization of a carbon block. Carbon blocks were prepared by filler (cokes or graphite) and binder (pitch). The binder-coated filler was thermally treated for carbonization. Th...
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Muyang He and Changdong Yeo
Diamond-like carbon (DLC) films are extensively used in various industries due to their superior protective and lubrication properties. However, DLC films including sp2 and sp3 carbon bonding are metastable materials, which can be thermally degraded (or ...
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Daniele M. Trucchi, Alessandro Bellucci, Marco Girolami, Matteo Mastellone and Stefano Orlando
Diamond is a wide bandgap semiconductor with excellent physical properties which allow it to operate under extreme conditions. However, the technological use of diamond was mostly conceived for the fabrication of ultraviolet, ionizing radiation and nucle...
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Zhijun Qiao, Jiajun Li, Naiqin Zhao, Chunsheng Shi and Philip Nash
Pág. 225 - 229
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