An ab initio study of the properties of some hydride dimers

Crystal Engineering Pub Date : 2003-12-01 DOI:10.1016/j.cryseng.2004.04.004

M.G. Govender , S.M. Rootman, T.A. Ford

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引用次数: 5

Abstract

The properties of the homodimers of the covalent hydrides of the elements from lithium to fluorine and from sodium to chlorine have been computed by means of ab initio molecular orbital theory. These properties show some interesting discontinuities, illustrating the significant differences between the natures of the dimers of the hydrides of the metals and metalloids of groups 1–3, and those of the electronegative non-metals of groups 5–7. The dimers of the group 1–3 hydrides are very strongly bound, featuring two bridging hydrogen atoms per dimer molecule, in structures similar to that of the well-known diborane species. Those of the hydrides of groups 6 and 7 are stabilized by conventional, almost linear, hydrogen bonds. The same is true of the ammonia dimer, but that of phosphine contains two equivalent pairs of bridging hydrogen atoms in a very weakly bound, doubly bifurcated hydrogen-bonded aggregate. The methane and silane dimers are found to be barely bound at all.

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一些氢化物二聚体性质的从头算研究

用从头算分子轨道理论计算了从锂到氟和从钠到氯的共价氢化物同二聚体的性质。这些性质显示出一些有趣的不连续性，说明了1-3基团的金属和类金属的氢化物的二聚体与5-7基团的电负性非金属的二聚体的性质之间的显著差异。基团1-3氢化物的二聚体结合非常紧密，每个二聚体分子具有两个桥接氢原子，其结构类似于众所周知的二硼烷类。第6和第7基团的氢化物是由传统的、几乎是线性的氢键稳定的。氨二聚体也是如此，但磷化氢的二聚体包含两对相等的桥接氢原子，在一个非常弱的键合，双分叉的氢键聚集体中。发现甲烷和硅烷二聚体几乎没有结合。

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Crystal Engineering

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