Synthesis of Boron-Rich Cubic B(CxN1-x) Compounds
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Abstract
B2CN precursor is prepared by a mechanical vibration-milling process using amorphous boron, graphite and h-BN powders with mole ratio of 1:1:1. A mixture of precursor and Ca3B2N4 catalyst is treated under high pressure and high temperature. A boron rich cubic B(CxN1-x) phase is obtained after removing the catalyst by acid treatment. The average C content of the boron-rich cubic phase is about 6 at.% detected by energy-dispersive x-ray analysis spectroscopy. It is found that the highest carbon content in the cubic phase is as large as 16 at.%.
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GUO Li-Cong, HU Wen-Tao, HE Ju-Long, YU Dong-Li, LIU Shi-Min, LI Dong-Chun, TIAN Yong-Jun. Synthesis of Boron-Rich Cubic B(CxN1-x) Compounds[J]. Chin. Phys. Lett., 2005, 22(12): 3141-3143.
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GUO Li-Cong, HU Wen-Tao, HE Ju-Long, YU Dong-Li, LIU Shi-Min, LI Dong-Chun, TIAN Yong-Jun. Synthesis of Boron-Rich Cubic B(CxN1-x) Compounds[J]. Chin. Phys. Lett., 2005, 22(12): 3141-3143.
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GUO Li-Cong, HU Wen-Tao, HE Ju-Long, YU Dong-Li, LIU Shi-Min, LI Dong-Chun, TIAN Yong-Jun. Synthesis of Boron-Rich Cubic B(CxN1-x) Compounds[J]. Chin. Phys. Lett., 2005, 22(12): 3141-3143.
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GUO Li-Cong, HU Wen-Tao, HE Ju-Long, YU Dong-Li, LIU Shi-Min, LI Dong-Chun, TIAN Yong-Jun. Synthesis of Boron-Rich Cubic B(CxN1-x) Compounds[J]. Chin. Phys. Lett., 2005, 22(12): 3141-3143.
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