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Towards an Accurate Prediction of Nitrogen Chemical Shifts by Density Functional Theory and Gauge-Including Atomic Orbital

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posted on 2024-11-16, 01:56 authored by Peng Gao, Xingyong Wang, Haibo YuHaibo Yu
An effcient, yet accurate, computational protocol for predicting nitrogen NMR chemical shifts based on density functional theory and the gauge-including atomic orbital approach has been proposed. A database of small and relatively rigid compounds containing nitrogen atoms was compiled. Scaling factors for the linear correlation between experimental 15N chemical shifts and calculated isotropic shielding constants have been systematically investigated with seven different levels of theory in both chloroform and dimethyl sulfoxide, two commonly used solvents for NMR experiments. The best method yields a root-mean-square deviation of about 5.30 ppm and 7.00 ppm in CHCl3 and DMSO, respectively. Moreover, another set of scaling factors for -NH2 chemical shifts was also proposed based on a separate database with three levels of theory. Furthermore, it is encouraging that a reasonable transferability for the linear correlation has been found between these two solvents. This finding will enable broader applications of the developed empirical scaling factors to other commonly used solvents in NMR experiments. The consistency between theoretical predictions and experimental results for structural elucidations was illustrated for selected examples including regioisomers, tautomers, oxidation states, and protonated structures.

Funding

Computational enzymology: exploring the free energy landscape of enzymatic catalysis

Australian Research Council

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Liquid-phase hydrogen carriers for energy storage and delivery

Australian Research Council

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History

Citation

Gao, P., Wang, X. & Yu, H. (2019). Towards an Accurate Prediction of Nitrogen Chemical Shifts by Density Functional Theory and Gauge-Including Atomic Orbital. Advanced Theory and Simulations, 2 (2), 1800148-1-1800148-8.

Journal title

Advanced Theory and Simulations

Volume

2

Issue

2

Language

English

Notes

This is the peer reviewed version of the article which has been published in final form at https://doi.org/10.1002/adts.201800148. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions

RIS ID

131146

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