量子力学模拟微液滴中反应速率的加速。

Quantum Mechanical Modeling of Reaction Rate Acceleration in Microdroplets.

机构信息

Network for Computational Nanotechnology, Purdue University, West Lafayette, Indiana 47906, United States.

Department of Chemistry, Purdue University, West Lafayette, Indiana 47906, United States.

出版信息

J Phys Chem A. 2020 Jun 18;124(24):4984-4989. doi: 10.1021/acs.jpca.0c03225. Epub 2020 Jun 9.

DOI:10.1021/acs.jpca.0c03225

PMID:32453564

Abstract

Organic reactions in microdroplets can be orders of magnitude faster than their bulk counterparts. We hypothesize that solvation energy differences between bulk and interface play a key role in the intrinsic rate constant increase and test the hypothesis with explicit solvent calculations. We demonstrate for both the protonated phenylhydrazine reagent and the hydrazone transition state (TSB) that molecular orientations which place the charge sites at the surface confer high energy. A pathway in which this high-energy form transforms into a fully solvated TSB has a lower activation energy than bulk by some 59 kJ/mol, a result that is consistent with experimental rate acceleration studies.

摘要

微滴中的有机反应可比其在本体中的反应快几个数量级。我们假设本体和界面之间的溶剂化能差异在固有速率常数的增加中起着关键作用，并通过显溶剂计算来验证这一假设。我们证明了质子化苯肼试剂和腙过渡态（TSB）都是如此，即那些将电荷位置置于表面的分子取向赋予了高能量。与本体相比，这种高能形式转化为完全溶剂化的 TSB 的途径的活化能降低了约 59 kJ/mol，这一结果与实验速率加速研究一致。

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量子力学模拟微液滴中反应速率的加速。

Quantum Mechanical Modeling of Reaction Rate Acceleration in Microdroplets.

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