溶剂化如何改变不对称键断裂的热力学：液态四氢呋喃中NaK的量子模拟

How Solvation Alters the Thermodynamics of Asymmetric Bond-Breaking: Quantum Simulation of NaK in Liquid Tetrahydrofuran.

作者信息

Mei Kenneth J, Schwartz Benjamin J

机构信息

Department of Chemistry & Biochemistry, University of California, Los Angeles, Los Angeles, California 90095-1569, United States.

出版信息

J Phys Chem Lett. 2024 Aug 15;15(32):8187-8195. doi: 10.1021/acs.jpclett.4c01636. Epub 2024 Aug 2.

DOI:10.1021/acs.jpclett.4c01636

PMID:39093598

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11331520/

Abstract

Gas-phase potential energy surfaces (PESs) are often used to provide an intuitive understanding of molecular chemical reactivity. Most chemical reactions, however, take place in solution, and it is unclear whether gas-phase PESs accurately represent chemical processes in solvent environments. In this work we use quantum simulations to investigate the dissociation energetics of NaK in liquid tetrahydrofuran (THF) to understand the degree to which solvent interactions alter the gas-phase picture. Using umbrella sampling and thermodynamic integration techniques, we construct condensed-phase free energy surfaces of NaK on THF in both the ground and electronic excited states. We find that solvation by THF completely alters the nature of the NaK bond by reordering the thermodynamic dissociation products. Reaching the thermodynamic dissociation limit in THF also requires a long-range charge transfer process that has no counterpart in the gas phase. Gas-phase PESs, even with perturbations, cannot adequately describe the reactivity of simple asymmetric molecules in solution.

摘要

气相势能面（PESs）常被用于直观理解分子化学反应性。然而，大多数化学反应发生在溶液中，目前尚不清楚气相势能面是否能准确表征溶剂环境中的化学过程。在这项工作中，我们使用量子模拟来研究钠钾（NaK）在液态四氢呋喃（THF）中的解离能，以了解溶剂相互作用改变气相情况的程度。利用伞形采样和热力学积分技术，我们构建了处于基态和电子激发态的钠钾在四氢呋喃上的凝聚相自由能面。我们发现，四氢呋喃溶剂化通过重新排列热力学解离产物，完全改变了钠钾键的性质。在四氢呋喃中达到热力学解离极限还需要一个长程电荷转移过程，而这在气相中并无对应情况。即使有微扰，气相势能面也无法充分描述简单不对称分子在溶液中的反应性。

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溶剂化如何改变不对称键断裂的热力学：液态四氢呋喃中NaK的量子模拟

How Solvation Alters the Thermodynamics of Asymmetric Bond-Breaking: Quantum Simulation of NaK in Liquid Tetrahydrofuran.

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