The high pressure synthesis of the graphitic form of C3N4 |
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| Authors: | H. Montigaud S. Courjault B. Tanguy G. Demazeau J. Peyronneau D. Andrault |
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| Affiliation: | 1. Institut de Chimie de la Matière Condensée de Bordeaux , (ICMCB UPR-CNRS 9048) 87 Avenue du Dr. A. Schwcitzer, PESSAC Cedex, France;2. Université de Poitiers, LMP. UMR. , 6630-CNRS, Boulevard 3-téléport 2, B.P. 179, 86960, Futuroscope Cedex, France;3. Institut de Physique du Globe de Paris , 4, Place, Jussieu, 75005 |
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| Abstract: | ![]()
Abstract Basing on “ab-initio” calculations, C3N4 was claimed to be an ultra-hard material with a bulk-modulus close to that of diamond. Five different structural varieties were announced: the graphitic form, the zinc blende structure, the α and β forms of Si3N4 and another form, isostructural with the high pressure variety of Zn2Si04. Using the same strategy as that developed for diamond or c-BN synthesis, it appears that the graphitic form could be an appropriate precursor for preparing the 3D varieties. Two main problems characterize the C3N4 synthesis: (-) the temperature should be reduced in order to prevent nitrogen loss, (-) the reactivity of the precursors should be improved. Consequently, we have developed a new process using the solvothermal decomposition of organic precursors containing carbon and nitrogen in the presence of a nitriding solvent. The resulting material, with a composition close to C3N4, has been characterized by different physico-chemical techniques. |
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| Keywords: | C3N4-C3N4 synthesis graphitic C3N4 structure |
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