A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement
Enantioselective ion pair catalysis has gained significant attention due to its ability to exert selectivity control in various reactions. Achiral counterions have been found to play crucial roles in modulating reactivity and selectivity. The modular nature of an ion pair catalyst allows rapid alter...
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sg-ntu-dr.10356-1731142024-01-12T15:32:01Z A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement Yang, Ziqi Xu, Chaoran Zhou, Xianxian Cheong, Choon Boon Kee, Choon Wee Tan, Choon-Hong School of Chemistry, Chemical Engineering and Biotechnology Institute of Sustainability for Chemicals, Energy and Environment, A*STAR Science::Chemistry Enantioselectivity Ions Enantioselective ion pair catalysis has gained significant attention due to its ability to exert selectivity control in various reactions. Achiral counterions have been found to play crucial roles in modulating reactivity and selectivity. The modular nature of an ion pair catalyst allows rapid alterations of the achiral counterion to achieve optimal outcomes, without the need to modify the more onerous chiral component. In this study, we report the successful development of a stable chiral pentanidium pyridinyl-sulphonamide ion pair as a nucleophilic organocatalyst for asymmetric Steglich rearrangement. The ion pair catalyst demonstrated excellent performance, leading to enantioenriched products with up to 99% ee through simple alterations of the achiral anions. We conducted extensive ROESY experiments and concluded that the reactivity and enantioselectivity were correlated to the formation of a tight ion pair in solution. Further computational analyses provided greater clarity to the structure of the ion pair catalyst in solution. Our findings reveal the critical roles of NMR experiments and computational analyses in the design and optimisation of ion pair catalysts. Nanyang Technological University National Research Foundation (NRF) Published version We gratefully acknowledge Nanyang Technological University for Tier 1 grants RG2/20 and RG61/21 and the Singapore National Research Foundation Competitive Research Program (NRF-CRP22-2019-0002). 2024-01-12T07:22:29Z 2024-01-12T07:22:29Z 2023 Journal Article Yang, Z., Xu, C., Zhou, X., Cheong, C. B., Kee, C. W. & Tan, C. (2023). A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement. Chemical Science, 14(45), 13184-13190. https://dx.doi.org/10.1039/d3sc04397e 2041-6520 https://hdl.handle.net/10356/173114 10.1039/d3sc04397e 38023527 2-s2.0-85176742556 45 14 13184 13190 en RG2/20 RG61/21 NRF-CRP22-2019-0002 Chemical Science © 2023 The Author(s). Published by the Royal Society of Chemistry. This article is licensed under a Creative Commons Attribution-NonCommercial 3.0 Unported Licence. application/pdf |
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Science::Chemistry Enantioselectivity Ions Yang, Ziqi Xu, Chaoran Zhou, Xianxian Cheong, Choon Boon Kee, Choon Wee Tan, Choon-Hong A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement |
| description |
Enantioselective ion pair catalysis has gained significant attention due to its ability to exert selectivity control in various reactions. Achiral counterions have been found to play crucial roles in modulating reactivity and selectivity. The modular nature of an ion pair catalyst allows rapid alterations of the achiral counterion to achieve optimal outcomes, without the need to modify the more onerous chiral component. In this study, we report the successful development of a stable chiral pentanidium pyridinyl-sulphonamide ion pair as a nucleophilic organocatalyst for asymmetric Steglich rearrangement. The ion pair catalyst demonstrated excellent performance, leading to enantioenriched products with up to 99% ee through simple alterations of the achiral anions. We conducted extensive ROESY experiments and concluded that the reactivity and enantioselectivity were correlated to the formation of a tight ion pair in solution. Further computational analyses provided greater clarity to the structure of the ion pair catalyst in solution. Our findings reveal the critical roles of NMR experiments and computational analyses in the design and optimisation of ion pair catalysts. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Yang, Ziqi Xu, Chaoran Zhou, Xianxian Cheong, Choon Boon Kee, Choon Wee Tan, Choon-Hong |
| format |
Article |
| author |
Yang, Ziqi Xu, Chaoran Zhou, Xianxian Cheong, Choon Boon Kee, Choon Wee Tan, Choon-Hong |
| author_sort |
Yang, Ziqi |
| title |
A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement |
| title_short |
A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement |
| title_full |
A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement |
| title_fullStr |
A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement |
| title_full_unstemmed |
A chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for Steglich rearrangement |
| title_sort |
chiral pentanidium and pyridinyl-sulphonamide ion pair as an enantioselective organocatalyst for steglich rearrangement |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173114 |
| _version_ |
1789482935597924352 |