基于高效DLPNO-CCSD(T)方法对含C、H、O和N的闭壳层化合物生成焓的估算,并通过严格评估的实验数据进行验证。
Efficient DLPNO-CCSD(T)-Based Estimation of Formation Enthalpies for C-, H-, O-, and N-Containing Closed-Shell Compounds Validated Against Critically Evaluated Experimental Data.
作者信息
Paulechka Eugene, Kazakov Andrei
机构信息
Thermodynamics Research Center, Applied Chemicals and Materials Division, National Institute of Standards and Technology , 325 Broadway, Boulder, Colorado 80305-3337, United States.
出版信息
J Phys Chem A. 2017 Jun 8;121(22):4379-4387. doi: 10.1021/acs.jpca.7b03195. Epub 2017 May 25.
Abstract
An accurate and cost-efficient methodology for the estimation of the enthalpies of formation for closed-shell compounds composed of C, H, O, and N atoms is presented and validated against critically evaluated experimental data. The computational efficiency is achieved through the use of the resolution-of-identity (RI) and domain-based local pair-natural orbital coupled cluster (DLPNO-CCSD(T)) approximations, which results in a drastic reduction in both the computational cost and the number of necessary steps for a composite quantum chemical method. The expanded uncertainty for the proposed methodology evaluated using a data set of 45 thoroughly vetted experimental values for molecules containing up to 12 heavy atoms is about 3 kJ·mol, competitive with those of typical calorimetric measurements. For the compounds within the stated scope, the methodology is shown to be superior to a representative, more general, and widely used composite quantum chemical method, G4.
摘要
提出了一种准确且经济高效的方法,用于估算由碳、氢、氧和氮原子组成的闭壳层化合物的生成焓,并根据严格评估的实验数据进行了验证。通过使用单位分辨率(RI)和基于域的局部对自然轨道耦合簇(DLPNO-CCSD(T))近似实现了计算效率,这使得复合量子化学方法的计算成本和所需步骤数都大幅降低。使用包含多达12个重原子的分子的45个经过充分审查的实验值数据集评估的所提出方法的扩展不确定度约为3 kJ·mol,与典型量热测量的不确定度具有竞争力。对于所述范围内的化合物,该方法被证明优于一种具有代表性、更通用且广泛使用的复合量子化学方法G4。
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