Quantum chemical approach for condensed-phase thermochemistry (III): Accurate evaluation of proton hydration energy and standard hydrogen electrode potential

Ishikawa Atsushi; Nakai Hiromi

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Quantum chemical approach for condensed-phase thermochemistry (III): Accurate evaluation of proton hydration energy and standard hydrogen electrode potential

机译：凝聚相热化学的量子化学方法（III）：准确评估质子水合能和标准氢电极电势

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Gibbs free energy of hydration of a proton and standard hydrogen electrode potential were evaluated using high-level quantum chemical calculations. The solvent effect was included using the cluster continuum model, which treated short-range effects by quantum chemical calculations of proton-water complexes, and the long-range effects by a conductor-like polarizable continuum model. The harmonic solvation model (HSM) was employed to estimate enthalpy and entropy contributions due to nuclear motions of the clusters by including the cavity-cluster interactions. Compared to the commonly used ideal gas model, HSM treatment significantly improved the contribution of entropy, showing a systematic convergence toward the experimental data. (C) 2016 Elsevier B.V. All rights reserved.

机译：使用高级量子化学计算来评估质子水合的吉布斯自由能和标准氢电极电势。使用簇连续体模型包括了溶剂效应，该簇连续体模型通过质子-水配合物的量子化学计算处理了短程效应，并通过了类似导体的可极化连续体模型来处理了长程效应。谐波溶剂化模型（HSM）用于通过包括腔团间的相互作用来估计由于团簇核运动而产生的焓和熵贡献。与常用的理想气体模型相比，HSM处理显着提高了熵的贡献，显示了对实验数据的系统收敛。（C）2016 Elsevier B.V.保留所有权利。

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《Chemical Physics Letters 》 |2016年第null期| 共6页
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Ishikawa Atsushi; Nakai Hiromi;
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1. Quantum chemical approach for condensed-phase thermochemistry (III): Accurate evaluation of proton hydration energy and standard hydrogen electrode potential [J] . Ishikawa Atsushi, Nakai Hiromi Chemical Physics Letters . 2016 ,第Null期

机译：凝聚相热化学的量子化学方法（III）：准确评估质子水合能和标准氢电极电势
2. Quantum chemical approach for condensed-phase thermochemistry (V): Development of rigid-body type harmonic solvation model [J] . Tarumi Moto, Nakai Hiromi Chemical Physics Letters . 2018 ,第期

机译：浓缩相热化学的量子化学方法（V）：刚体型谐波溶剂溶剂化模型的开发
3. Quantum chemical approach for condensed-phase thermochemistry (IV): Solubility of gaseous molecules [J] . Ishikawa Atsushi, Kamata Masahiro, Nakai Hiromi Chemical Physics Letters . 2016 ,第Null期

机译：凝聚相热化学（IV）的量子化学方法：气态分子的溶解度
4. Measurement and Calculation of Electrochemical Potentials in Hydrogenated High Temperature Water, including an Evaluation of the Yttria-Stabilized Zirconia/Iron-Iron Oxide (Fe/Fe_3O_4) Probe as a Reference Electrode [C] . Steven A. Attanasio, David S. Morton, Mark A. Ando Corrosion Annual Conference and Exposition . 2006

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6. Directly Relating Gas-Phase Cluster Measurements to Solution-Phase Hydrolysis the Absolute Standard Hydrogen Electrode Potential and the Absolute Proton Solvation Energy [O] . William A. Donald, Ryan D. Leib, Jeremy T. O’Brien, -1

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8. Realizing the Energy Potential of Methane Hydrate for the United States. Committee on Assessment of the Department of Energy's Methane Hydrate Research and Development Program: Evaluating Methane Hydrate as a Future Energy Resource [R] . 2010

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Quantum chemical approach for condensed-phase thermochemistry (III): Accurate evaluation of proton hydration energy and standard hydrogen electrode potential

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