1. B-C-N Compound Synthesized Under High Temperature and High Pressure
- Author
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G.T. Zou, D.C. Li, J.L. He, Yongjun Tian, D.L. Yu, O. Yanagisawa, X.P. Jia, and L.X. Chen
- Subjects
Nuclear and High Energy Physics ,Radiation ,Photoluminescence ,Chemistry ,Crystal chemistry ,chemistry.chemical_element ,Boron carbide ,Cubic crystal system ,Condensed Matter Physics ,Crystal ,Crystallography ,chemistry.chemical_compound ,Absorption band ,Boron nitride ,General Materials Science ,Boron - Abstract
Crystalline hexagonal B(N 1 m x C x ) and cubic B-C-N compounds have been synthesized from a precursor produced from melamine and boric acid by application of high temperature and high pressure. The synthesized products were characterized by X-ray diffraction. The lattice parameters for the hexagonal crystal are a=2.506 A, c=6.657 A, and that for the cubic crystal is a=3.596 A. The X-ray photoelectron spectra of the B-C-N compound indicate the presence of B-N, C-N, C-C, and B-C bonds, which suggests that boron, carbon, and nitrogen atoms all bond with one another and that the B-C-N crystal is a compound in which the three kinds of atoms are mixed atomically. The composition of the B-C-N compound is B 0.47 C 0.23 N 0.30 . A strong absorption band at 1000∼1120 cm m 1 attributable to the cubic B-C-N phase is observed in the infrared spectrum. The photoluminescence spectrum of hexagonal B-C-N powder measured at room temperature features a broad peak centered at 374 nm, corresponding to the band-edge emission ...
- Published
- 2002
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