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Molecular simulation on the interaction of TiCl4 with the surface of β-MgCl2(110)

XIE Kefeng,WANG Xia,SONG Sainan,LIU Qiang,XUE Shan   

  1. Lanzhou Petrochemical Research Center,Petrochina,Lanzhou 730060,Gansu,China
  • Online:2012-06-05 Published:2012-06-05

TiCl4在?-MgCl2(110)表面相互作用的分子模拟

谢克锋,王 霞,宋赛楠,刘 强,薛 山   

  1. 中国石油兰州化工研究中心,甘肃 兰州 730060

Abstract: Density functional theory based on ab-initio quantum methods was used to study the interaction between TiCl4 and the surface of β-MgCl2(110). Absorption energy,bond length and electron cloud have been obtained by molecular simulation. It has been found that TiCl4 can be most weakly absorbed by the surface of β-MgCl2(110),on the contrary, [TiCl3]+,[TiCl2]2+ and [TiCl]3+ that TiCl4 lost Cl atom had been strongly absorbed.

Key words: density functional theory;TiCl4;&beta, -MgCl2;absorption energy;bond length;electron cloud

摘要: 利用基于密度泛函理论的量子力学从头计算方法对TiCl4和其失去部分Cl原子后的离子[TiCl3]+、 [TiCl2]2+、[TiCl]3+在β-MgCl2(110)面上的吸附作用进行了研究。通过模拟计算其吸附能、键长和电子云分布,发现TiCl4和β-MgCl2(110)面上作用力很弱,而只有TiCl4失去部分Cl原子后带上正电荷,才能与β-MgCl2(110)面形成强的化学键。

关键词: 密度泛函理论;TiCl4;&beta, -MgCl2;吸附能;键长;电子云

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