Ion pair catalyst - pentanidinium
In this account, we further describe our already developed N-sp2 hybrid guanidinium as an efficient phase-transfer catalyst and ion pair catalysis based on N-sp2 hybrid pentanidinium and its application in some new reactions. The sp3 hybrid quaternary ammonium salt has a tetrahedral structure, which...
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sg-ntu-dr.10356-1689752023-06-26T01:58:50Z Ion pair catalyst - pentanidinium Qin, Yimin Zhang, Zhenqiang Ye, Xinyi Tan, Choon-Hong School of Chemistry, Chemical Engineering and Biotechnology Science::Chemistry Ion Pair Catalysis Phase-Transfer Catalysis In this account, we further describe our already developed N-sp2 hybrid guanidinium as an efficient phase-transfer catalyst and ion pair catalysis based on N-sp2 hybrid pentanidinium and its application in some new reactions. The sp3 hybrid quaternary ammonium salt has a tetrahedral structure, which means that three sides of it can be effectively steric, allowing the remaining side to be close to the substrate. However, the sp2 hybrid ammonium salt allows the substrate to form ion pairs from both directions respectively, so it is a greater challenge to control the stereoselectivity of the reaction. Van der Waals forces, such as hydrogen bonds and π-π${\pi -\pi }$ interactions, have been used to make electrophiles approach from a certain direction, leading to a higher enantioselectivity. Based on the above idea, we designed an N-sp2 hybrid phase-transfer catalyst, pentanidinium. Pentanidinium has five conjugated nitrogen atoms, one of which has a formal positive charge, which is necessary for it to become an ion pair catalyst. We have confirmed that pentanidinium can catalyze α-hydroxylation of 3-substituted-2-oxindoles, Michael addition of 3-alkyloxindoles with vinyl sulfone, and alkylation reactions of sulfenate anions and dihydrocoumarins, desymmetrization of pro-chiral sulfinate to afford enantioenriched sulfinate esters. Pentanidinium with side chain structure changes can also be catalyzed efficiently with enantioconvergent halogenophilic nucleophilic substitution, including azidation and thioesterification. In the reaction catalyzed by pentanidinium, it always attracts us with the advantages of low catalytic load and good enantioselectivity. This research was funded by NSFC(22101255) and Zhejiang University of Technology(2020414801729). 2023-06-26T01:58:50Z 2023-06-26T01:58:50Z 2023 Journal Article Qin, Y., Zhang, Z., Ye, X. & Tan, C. (2023). Ion pair catalyst - pentanidinium. The Chemical Record, e202200304-. https://dx.doi.org/10.1002/tcr.202200304 1527-8999 https://hdl.handle.net/10356/168975 10.1002/tcr.202200304 36762723 2-s2.0-85147648006 e202200304 en The Chemical Record © 2023 The Chemical Society of Japan and Wiley-VCH GmbH. All rights reserved. |
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Science::Chemistry Ion Pair Catalysis Phase-Transfer Catalysis Qin, Yimin Zhang, Zhenqiang Ye, Xinyi Tan, Choon-Hong Ion pair catalyst - pentanidinium |
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In this account, we further describe our already developed N-sp2 hybrid guanidinium as an efficient phase-transfer catalyst and ion pair catalysis based on N-sp2 hybrid pentanidinium and its application in some new reactions. The sp3 hybrid quaternary ammonium salt has a tetrahedral structure, which means that three sides of it can be effectively steric, allowing the remaining side to be close to the substrate. However, the sp2 hybrid ammonium salt allows the substrate to form ion pairs from both directions respectively, so it is a greater challenge to control the stereoselectivity of the reaction. Van der Waals forces, such as hydrogen bonds and π-π${\pi -\pi }$ interactions, have been used to make electrophiles approach from a certain direction, leading to a higher enantioselectivity. Based on the above idea, we designed an N-sp2 hybrid phase-transfer catalyst, pentanidinium. Pentanidinium has five conjugated nitrogen atoms, one of which has a formal positive charge, which is necessary for it to become an ion pair catalyst. We have confirmed that pentanidinium can catalyze α-hydroxylation of 3-substituted-2-oxindoles, Michael addition of 3-alkyloxindoles with vinyl sulfone, and alkylation reactions of sulfenate anions and dihydrocoumarins, desymmetrization of pro-chiral sulfinate to afford enantioenriched sulfinate esters. Pentanidinium with side chain structure changes can also be catalyzed efficiently with enantioconvergent halogenophilic nucleophilic substitution, including azidation and thioesterification. In the reaction catalyzed by pentanidinium, it always attracts us with the advantages of low catalytic load and good enantioselectivity. |
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School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Qin, Yimin Zhang, Zhenqiang Ye, Xinyi Tan, Choon-Hong |
| format |
Article |
| author |
Qin, Yimin Zhang, Zhenqiang Ye, Xinyi Tan, Choon-Hong |
| author_sort |
Qin, Yimin |
| title |
Ion pair catalyst - pentanidinium |
| title_short |
Ion pair catalyst - pentanidinium |
| title_full |
Ion pair catalyst - pentanidinium |
| title_fullStr |
Ion pair catalyst - pentanidinium |
| title_full_unstemmed |
Ion pair catalyst - pentanidinium |
| title_sort |
ion pair catalyst - pentanidinium |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168975 |
| _version_ |
1772825551984132096 |