Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map
Generally, N-heterocyclic carbene (NHC) complexed with carbonyl compounds would transform into several important active intermediates, i.e., enolates, Breslow intermediates, or acylazolium intermediates, which act as either a nucleophile (Nu) or an electrophile (E) to react with the other E/Nu partn...
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sg-ntu-dr.10356-1551122023-02-28T19:55:43Z Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map Li, Xue Xu, Jun Li, Shi-Jun Qu, Ling-Bo Li, Zhongjun Chi, Robin Yonggui Wei, Donghui Lan, Yu School of Physical and Mathematical Sciences Science::Chemistry Catalysis Forecasting Generally, N-heterocyclic carbene (NHC) complexed with carbonyl compounds would transform into several important active intermediates, i.e., enolates, Breslow intermediates, or acylazolium intermediates, which act as either a nucleophile (Nu) or an electrophile (E) to react with the other E/Nu partner. Hence, the key to predicting the origin of chemoselectivity is to compute the activity (i.e., electrophilic index ω for E and nucleophilic index N for Nu) and stability of the intermediates and products, which are suggested in a general mechanistic map of these reactions. To support this point, we selected and studied different cases of the NHC-catalyzed reactions of carbonyl compounds in the presence of a base and/or an oxidant, in which multiple possible pathways involving acylazolium, enolate, Breslow, and α,β-unsaturated acylazolium intermediates were proposed and a novel index ω + N of the E and Nu partners was employed to exactly predict the energy barrier of the chemoselective step in theory. This work provides a guide for determining the general principle behind organocatalytic reactions with various chemoselectivities, and suggests a general application of the reaction index in predicting the chemoselectivity of the nucleophilic and electrophilic reactions. Published version We acknowledge financial support from the Excellent Youth Fund of the Natural Science Fund of China (No. 21822303), the National Natural Science Foundation of China (No. 21903071, 21772020, and 21773214), the China Postdoctoral Science Foundation (No. 2015T80776), and the Outstanding Young Talent Research Fund of Zhengzhou University (No. 1521316001). 2022-02-09T02:42:21Z 2022-02-09T02:42:21Z 2020 Journal Article Li, X., Xu, J., Li, S., Qu, L., Li, Z., Chi, R. Y., Wei, D. & Lan, Y. (2020). Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map. Chemical Science, 11(27), 7214-7225. https://dx.doi.org/10.1039/d0sc01793k 2041-6520 https://hdl.handle.net/10356/155112 10.1039/d0sc01793k 34123007 2-s2.0-85088106389 27 11 7214 7225 en Chemical Science © 2020 The Royal Society of Chemistry. This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. application/pdf |
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Science::Chemistry Catalysis Forecasting Li, Xue Xu, Jun Li, Shi-Jun Qu, Ling-Bo Li, Zhongjun Chi, Robin Yonggui Wei, Donghui Lan, Yu Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map |
| description |
Generally, N-heterocyclic carbene (NHC) complexed with carbonyl compounds would transform into several important active intermediates, i.e., enolates, Breslow intermediates, or acylazolium intermediates, which act as either a nucleophile (Nu) or an electrophile (E) to react with the other E/Nu partner. Hence, the key to predicting the origin of chemoselectivity is to compute the activity (i.e., electrophilic index ω for E and nucleophilic index N for Nu) and stability of the intermediates and products, which are suggested in a general mechanistic map of these reactions. To support this point, we selected and studied different cases of the NHC-catalyzed reactions of carbonyl compounds in the presence of a base and/or an oxidant, in which multiple possible pathways involving acylazolium, enolate, Breslow, and α,β-unsaturated acylazolium intermediates were proposed and a novel index ω + N of the E and Nu partners was employed to exactly predict the energy barrier of the chemoselective step in theory. This work provides a guide for determining the general principle behind organocatalytic reactions with various chemoselectivities, and suggests a general application of the reaction index in predicting the chemoselectivity of the nucleophilic and electrophilic reactions. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Li, Xue Xu, Jun Li, Shi-Jun Qu, Ling-Bo Li, Zhongjun Chi, Robin Yonggui Wei, Donghui Lan, Yu |
| format |
Article |
| author |
Li, Xue Xu, Jun Li, Shi-Jun Qu, Ling-Bo Li, Zhongjun Chi, Robin Yonggui Wei, Donghui Lan, Yu |
| author_sort |
Li, Xue |
| title |
Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map |
| title_short |
Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map |
| title_full |
Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map |
| title_fullStr |
Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map |
| title_full_unstemmed |
Prediction of NHC-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map |
| title_sort |
prediction of nhc-catalyzed chemoselective functionalizations of carbonyl compounds : a general mechanistic map |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155112 |
| _version_ |
1759858086103744512 |