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用于计算分子固体中磁屏蔽的簇模型和交换相关泛函的批判性分析

Critical Analysis of Cluster Models and Exchange-Correlation Functionals for Calculating Magnetic Shielding in Molecular Solids.

作者信息

Holmes Sean T, Iuliucci Robbie J, Mueller Karl T, Dybowski Cecil

出版信息

J Chem Theory Comput. 2015 Nov 10;11(11):5229-41. doi: 10.1021/acs.jctc.5b00752.

DOI:10.1021/acs.jctc.5b00752
PMID:26894239
Abstract

Calculations of the principal components of magnetic-shielding tensors in crystalline solids require the inclusion of the effects of lattice structure on the local electronic environment to obtain significant agreement with experimental NMR measurements. We assess periodic (GIPAW) and GIAO/symmetry-adapted cluster (SAC) models for computing magnetic-shielding tensors by calculations on a test set containing 72 insulating molecular solids, with a total of 393 principal components of chemical-shift tensors from 13C, 15N, 19F, and 31P sites. When clusters are carefully designed to represent the local solid-state environment and when periodic calculations include sufficient variability, both methods predict magnetic-shielding tensors that agree well with experimental chemical-shift values, demonstrating the correspondence of the two computational techniques. At the basis-set limit, we find that the small differences in the computed values have no statistical significance for three of the four nuclides considered. Subsequently, we explore the effects of additional DFT methods available only with the GIAO/cluster approach, particularly the use of hybrid-GGA functionals, meta-GGA functionals, and hybrid meta-GGA functionals that demonstrate improved agreement in calculations on symmetry-adapted clusters. We demonstrate that meta-GGA functionals improve computed NMR parameters over those obtained by GGA functionals in all cases, and that hybrid functionals improve computed results over the respective pure DFT functional for all nuclides except 15N.

摘要

计算晶体固体中磁屏蔽张量的主成分需要考虑晶格结构对局部电子环境的影响,以便与实验核磁共振测量结果取得显著一致。我们通过对包含72种绝缘分子固体的测试集进行计算,评估了用于计算磁屏蔽张量的周期性(GIPAW)模型和GIAO/对称适配簇(SAC)模型,该测试集共有来自13C、15N、19F和31P位点的393个化学位移张量主成分。当精心设计簇以代表局部固态环境,且周期性计算包含足够的变异性时,两种方法预测的磁屏蔽张量都与实验化学位移值吻合良好,这证明了两种计算技术的一致性。在基组极限下,我们发现对于所考虑的四种核素中的三种,计算值的微小差异没有统计学意义。随后,我们探讨了仅在GIAO/簇方法中可用的其他密度泛函理论(DFT)方法的影响,特别是混合广义梯度近似(GGA)泛函、meta-GGA泛函和混合meta-GGA泛函的使用,这些泛函在对称适配簇的计算中显示出更好的一致性。我们证明,在所有情况下,meta-GGA泛函比GGA泛函能改善计算得到的核磁共振参数,并且除了15N之外,对于所有核素,混合泛函比各自的纯DFT泛函能改善计算结果。

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