离子液体的¹H NMR化学位移预测：相对参考标准的策略与应用

Prediction of H NMR chemical shifts for ionic liquids: strategy and application of a relative reference standard.

作者信息

Wang Juanfang, Liu Ying, Li Wen, Gao Guanjun

机构信息

College of Chemistry and Chemical Engineering, Inner Mongolia University Hohhot 010021 China

出版信息

RSC Adv. 2018 Aug 10;8(50):28604-28612. doi: 10.1039/c8ra04822c. eCollection 2018 Aug 7.

DOI:10.1039/c8ra04822c

PMID:35548389

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9084412/

Abstract

The computational predictions of H NMR chemical shifts for ionic liquids were investigated. To calculate the chemical shifts more accurately, the approach of relative reference standard (RRS) was proposed. This straightforward computational technique uses organic compounds and ionic liquids that are similar to the studied ionic liquids as standards. The calculated chemical shifts of single ion pairs were strongly influenced by the anion type and the local environment. Using the RRS methodology, the calculated results agreed well with the experimental chemical shifts due to the cancellation of errors caused by the anion. Ionic clusters consisting of 4 ion pairs were also employed to model the ionic liquids with strongly coordinating anions. Large clusters slightly improve the accuracy by reducing systematic errors. Although the experimental H NMR data of the reference ionic liquid should be used, the RRS methodology has been shown to predict H NMR chemical shifts efficiently at different levels of theory.

摘要

研究了离子液体的氢核磁共振（¹H NMR）化学位移的计算预测。为了更准确地计算化学位移，提出了相对参考标准（RRS）方法。这种直接的计算技术使用与所研究的离子液体相似的有机化合物和离子液体作为标准。单离子对的计算化学位移受阴离子类型和局部环境的强烈影响。使用RRS方法，由于消除了阴离子引起的误差，计算结果与实验化学位移吻合良好。由4个离子对组成的离子簇也被用于模拟具有强配位阴离子的离子液体。大簇通过减少系统误差略微提高了准确性。尽管应该使用参考离子液体的实验¹H NMR数据，但RRS方法已被证明在不同理论水平下都能有效地预测¹H NMR化学位移。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b250/9084412/c4610f0c4abf/c8ra04822c-f1.jpg

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离子液体的¹H NMR化学位移预测：相对参考标准的策略与应用

Prediction of H NMR chemical shifts for ionic liquids: strategy and application of a relative reference standard.

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