从第一原理得出全氟辛烷磺酸的精确形成焓:在广义热化学层次中结合不同层次的理论

IF 3.7 Q2 CHEMISTRY, PHYSICAL ACS Physical Chemistry Au Pub Date : 2024-02-27 DOI:10.1021/acsphyschemau.3c00056
Kento Abeywardane,  and , C. Franklin Goldsmith*, 
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引用次数: 0

摘要

采用基于连通性的层次结构(CBH)方法计算了大量全氟和多氟烷基物质(PFAS)的形成焓。该方法结合了不同的电子结构方法,以分层的方式提供参考数据。ANL0 方法与活性热化学表相结合,以亚化学精度提供了较小物种的形成焓。根据 ANL0 的结果,使用具有明确相关性的耦合簇理论来计算中间物种的形成焓。对于最大的 PFAS,包括全氟辛酸(PFOA)和七氟环氧丙烷二聚酸(GenX),则使用了具有局部相关性的耦合簇理论。CBH 提出的同位反应序列由新的开源代码 AutoCBH 自动确定。其结果是首次报告的大多数物种的形成焓。收敛分析和全局不确定性量化证实,0 K 时的生成焓应精确到 ±5 kJ/mol 以内。这种新方法不仅限于全氟辛烷磺酸,还可应用于许多化学体系。
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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Accurate Enthalpies of Formation for PFAS from First-Principles: Combining Different Levels of Theory in a Generalized Thermochemical Hierarchy

The enthalpies of formation are computed for a large number of per- and poly fluoroalkyl substances (PFAS) using a connectivity-based hierarchy (CBH) approach. A combination of different electronic structure methods are used to provide the reference data in a hierarchical manner. The ANL0 method, in conjunction with the active thermochemical tables, provides enthalpies of formation for smaller species with subchemical accuracy. Coupled-cluster theory with explicit correlations are used to compute enthalpies of formation for intermediate species, based upon the ANL0 results. For the largest PFAS, including perfluorooctanoic acid (PFOA) and heptafluoropropylene oxide dimer acid (GenX), coupled-cluster theory with local correlations is used. The sequence of homodesmotic reactions proposed by the CBH are determined automatically by a new open-source code, AutoCBH. The results are the first reported enthalpies of formation for the majority of the species. A convergence analysis and global uncertainty quantification confirm that the enthalpies of formation at 0 K should be accurate to within ±5 kJ/mol. This new approach is not limited to PFAS, but can be applied to many chemical systems.

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CiteScore
3.70
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期刊介绍: ACS Physical Chemistry Au is an open access journal which publishes original fundamental and applied research on all aspects of physical chemistry. The journal publishes new and original experimental computational and theoretical research of interest to physical chemists biophysical chemists chemical physicists physicists material scientists and engineers. An essential criterion for acceptance is that the manuscript provides new physical insight or develops new tools and methods of general interest. Some major topical areas include:Molecules Clusters and Aerosols; Biophysics Biomaterials Liquids and Soft Matter; Energy Materials and Catalysis
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