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The geometry structures and electronic properties of Li_mB_n(m+n=12) clusters
作者姓名:阮文  谢安东  伍冬兰  罗文浪  余晓光
作者单位:College of Mathematics and Physics, Jinggangshan University, Ji' an 343009, China
基金项目:Project supported by the National Natural Science Foundation of China(Grant Nos.11264020 and 11364023);the Science Foundation of Education Committee of Jiangxi Province,China(Grant Nos.GJJ12463,11530,and 11540);the Doctoral Startup Fund of Jingguangshang University,China(Grant No.JZB11003);the Key Subject of Atomic and Molecular Physics in Jiangxi Province,China(Grant No.2011-2015)
摘    要:The geometric structures, electronic properties, total and binding energies, harmonic frequencies, the highest occupied molecular orbital to the lowest unoccupied molecular orbital energy gaps, and the vertical ionization potential energies of small LimBn (m+ n = 12) clusters were investigated by the density functional theory B3LYP with a 6-31 I+G (2d, 2p) basis set. All the calculations were performed using the Gaussian09 program. For the study of the LimBn clusters, the global minimum of the B 12 cluster was chosen as the starting point and the boron atoms were gradually replaced by Li atoms. The results showed that as the number of Li atoms increased, the stability of the LimBn cluster decreased and the physical and chemical properties became more active. In addition, on average there was a large charge transfer from the Li atoms to the B atoms.

关 键 词:几何结构  电子性质  团簇  分子轨道  B3LYP  全局最小值  锂原子  资产总额

The geometry structures and electronic properties of Li_mB_n(m+n=12) clusters
Abstract:The geometric structures, electronic properties, total and binding energies, harmonic frequencies, the highest occupied molecular orbital to the lowest unoccupied molecular orbital energy gaps, and the vertical ionization potential energies of small LimBn(m + n = 12) clusters were investigated by the density functional theory B3LYP with a 6-311+G(2d, 2p) basis set. All the calculations were performed using the Gaussian09 program. For the study of the LimBn clusters, the global minimum of the B12cluster was chosen as the starting point and the boron atoms were gradually replaced by Li atoms. The results showed that as the number of Li atoms increased, the stability of the LimBn cluster decreased and the physical and chemical properties became more active. In addition, on average there was a large charge transfer from the Li atoms to the B atoms.
Keywords:LimBn(m + n = ) clusters  density functional theory  geometry structures  electronic properties
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