Valence electron structure and bonding features of RuB2 and OSB2: The empirical electron theory calculations 被引量：4

Valence electron structure and bonding features of RuB2 and OSB2: The empirical electron theory calculations

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摘要 The valence electron structure (VES) of RuB2 and OsB2 were calculated by the empirical electron theory (EET) of solids and molecules and compared with the results derived from the first-principles calculations. The distributions of covalent electrons in different bonds indicate that B-B and B-Me have remarkably covalent bonding characters. Lattice electrons cruising around Me-Me layers are found to have great influences on electronic conductivity and high temperature plasticity. The ultra-high values of elastic constant Cn in the two compounds originate from close-packed covalent bonding along the c axis. Uneven bond strengths and distributions of covalent bonds, especially for B-Afe bonds, yield significant anisotropy. Low ratios of lattice electrons to covalent electrons suggest the intrinsic embrittlement in crystals. The fact that the calculated cohesive energies well agree with experimental results demonstrates the good suitability of the EET calculations in estimating cohesive energy for transition-metal borides. The valence electron structure (VES) of RuB2 and OsB2 were calculated by the empirical electron theory (EET) of solids and molecules and compared with the results derived from the first-principles calculations. The distributions of covalent electrons in different bonds indicate that B-B and B-Me have remarkably covalent bonding characters. Lattice electrons cruising around Me-Me layers are found to have great influences on electronic conductivity and high temperature plasticity. The ultra-high values of elastic constant Cn in the two compounds originate from close-packed covalent bonding along the c axis. Uneven bond strengths and distributions of covalent bonds, especially for B-Afe bonds, yield significant anisotropy. Low ratios of lattice electrons to covalent electrons suggest the intrinsic embrittlement in crystals. The fact that the calculated cohesive energies well agree with experimental results demonstrates the good suitability of the EET calculations in estimating cohesive energy for transition-metal borides.

作者 LUO XiaoGuang, LI JinPing, HU Ping & DONG ShanLiang Center for Composite Materials, Harbin Institute of Technology, Harbin 150001, China

出处《Science China(Technological Sciences)》 SCIE EI CAS 2010年第7期1877-1885,共9页 中国科学（技术科学英文版）

关键词 empirical ELECTRON theory (EET) of solid and molecules VALENCE ELECTRON structure (VES) COHESIVE energy anisotropy DIBORIDES of ruthenium and OSMIUM (RuB2 and OsB2) empirical electron theory (EET) of solid and molecules valence electron structure (VES) cohesive energy anisotropy diborides of ruthenium and osmium (RuB2 and OsB2)

分类号 O641.1 [理学—物理化学]

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