Reorientation of Isomeric Butanols: The Multiple Effects of Steric Bulk Arrangement on Hydrogen-Bond Dynamics

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• 作者：Oluwaseun O. Mesele ; Anthony A. Vartia ; Damien Laage ; Ward H. Thompson
• 刊名：Journal of Physical Chemistry B
• 出版年：2016
• 出版时间：March 3, 2016
• 年：2016
• 卷：120
• 期：8
• 页码：1546-1559
• 全文大小：668K
• ISSN：1520-5207

文摘

Molecular dynamics simulations are used to investigate OH reorientation in the four isomeric butanols in their bulk liquid state to examine the influence of the arrangement of the steric bulk on the alcohol reorientational and hydrogen-bond (H-bond) dynamics. The results are interpreted within the extended jump model in which the OH reorientation is decomposed into contributions due to “jumps” between H-bond partners and “frame” reorientation of the intact H-bonded pair. Reorientation is fastest in iso-butanol and slowest in tert-butanol, while sec- and n-butanol have similar reorientation times. This latter result is a fortuitous cancellation between the jump and frame reorientation in the two alcohols. The extended jump model is shown to provide a quantitative description of the OH reorientation times. A detailed analysis of the jump times shows that a combination of entropic, enthalpic, and dynamical factors, including transition state recrossing effects, all play a role. A simple model based on the liquid structure is proposed to estimate the energetic and entropic contributions to the jump time. This represents the groundwork for a predictive model of OH reorientation in alcohols, but additional studies are required to better understand the frame reorientation and transition state recrossing effects.