计算核磁共振：第 1 部分。理论背景。

Computational H NMR: Part 1. Theoretical background.

机构信息

A. E. Favorsky Irkutsk Institute of Chemistry, Siberian Branch of the Russian Academy of Sciences, Irkutsk, Russia.

Angarsk State Technical University, Angarsk, Russia.

出版信息

Magn Reson Chem. 2019 Nov;57(11):897-914. doi: 10.1002/mrc.4873. Epub 2019 Jun 27.

DOI:10.1002/mrc.4873

PMID:30963636

Abstract

This is the first one of the three closely interrelated reviews to be published in Magnetic Resonance in Chemistry dealing with accordingly theoretical background, chemical applications, and biochemical studies of and by means of computational H NMR. Presented in the first part of the review is a general outline of the modern theoretical methods and accuracy factors of computational H NMR involving locally dense basis set schemes, solvent effects, vibrational corrections, and relativistic effects performed at the density functional theory and/or nonempirical levels. This review is dedicated to Prof. Stephan Sauer in view of his invaluable contribution to the field of computational nuclear magnetic resonance.

摘要

这是在《磁共振化学》中出版的三篇紧密相关的综述中的第一篇，涉及计算 1 H NMR 的理论背景、化学应用和生物化学研究。本综述的第一部分介绍了现代理论方法的概述以及计算 1 H NMR 的精度因素，包括局部密集基组方案、溶剂效应、振动校正和相对论效应，这些都是在密度泛函理论和/或非经验水平上进行的。这篇综述是献给 Stephan Sauer 教授的，以感谢他在计算核磁共振领域的宝贵贡献。

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计算核磁共振：第 1 部分。理论背景。

Computational H NMR: Part 1. Theoretical background.

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