Dynamic simulation of orientational disorder in organic crystals: methyl groups, trifluoromethyl groups and whole molecules.

A. Gavezzotti
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引用次数: 1

Abstract

Large amplitude librations of atomic groups or of entire molecules in their crystals are simulated using optimized intermolecular potentials and crystal structures deposited in the Cambridge Structural Database. The analysis proceeds by a simple static model in which reorientations take place in a fixed environment, or by Monte Carlo (MC) simulation of equilibria dotted by rotational defects, or eventually by full Molecular Dynamics (MD). The simplest approach provides a valuable qualitative preview, but MC and MD are becoming easily accessible to the general solid-state chemist thanks to the facilities of the newly developed Milano Chemistry Molecular Simulation (MiCMoS) platform. Their combined results offer a wealth of information on the behaviour of phenyl-methyl and phenyl-trifluoromethyl groups, almost invariably affected by rotational flipping, whose nature and consequences are discussed with respect to disorder modelling in the refinement of X-ray structures. Whole-body reorientation takes place in flat molecules, benzene being the well-known prototype, but also in a very large molecule like coronene. Molecular dynamics of rotations in the cyclohexa-1,4-diene crystal offer a spectacular picture of the energetic profiles with jumping times. The dynamic oscillations described here are seldom considered in the formulation of crystal `bonds' or of `synthon' stability.
有机晶体中定向紊乱的动态模拟:甲基、三氟甲基和整个分子。
利用优化的分子间电位和沉积在剑桥结构数据库中的晶体结构,模拟了原子群或晶体中整个分子的大振幅振动。分析通过一个简单的静态模型进行,其中定向在固定的环境中发生,或者通过蒙特卡罗(MC)模拟由旋转缺陷点缀的平衡,或者最终通过完整的分子动力学(MD)进行。最简单的方法提供了有价值的定性预览,但由于新开发的米兰化学分子模拟(MiCMoS)平台的设施,MC和MD对一般固态化学家来说变得很容易获得。他们的综合结果提供了关于苯基甲基和苯基三氟甲基的行为的丰富信息,几乎总是受到旋转翻转的影响,其性质和后果在改进x射线结构的无序建模方面进行了讨论。整体定向发生在扁平分子中,苯是众所周知的原型,但也发生在像冠烯这样的大分子中。环己-1,4-二烯晶体的旋转分子动力学提供了一幅具有跳跃时间的能量剖面的壮观画面。在晶体“键”或“合成器”稳定性的表述中,很少考虑这里描述的动态振荡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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