Issue 20, 2022

Theoretical insight into decatungstate photocatalyzed alkylation of N-tosylimine via hydrogen atom transfer and proton-coupled electron transfer

Abstract

Decatungstate as a photocatalyst can activate various C(sp3)–H bonds to successfully construct the C(sp3)–C(sp2) bond with N-tosylimines. Herein density functional theory (DFT) calculations reveal a unique radical mechanism triggered by the reductive quenching cycle of decatungstate. First of all, photoexcited *[W10O32]4− activates the C(sp3)–H bond of ether through the hydrogen atom transfer (HAT) mechanism to generate [HW10O32]4− and a C-centered radical species. Next, the C-centered radical will selectively attack the imine carbon of N-tosylimine to provide the N-centered radical species containing the C(sp3)–C(sp2) bond. Finally, the C(sp3)–C(sp2) coupling product can be afforded by the stepwise proton-coupled electron transfer (PCET) process between [HW10O32]4− and the N-centered radical. Importantly, the bridging oxygen in the lateral position of [W10O32]4− is the most active. Intrinsic bond orbital (IBO) analysis confirms that *[W10O32]4− activates C(sp3)–H through HAT instead of PCET. Furthermore, the origin of the regio-selectivity has been explored in depth. We hope that the reductive quenching cycle mechanism ([W10O32]4−–*[W10O32]4−–[HW10O32]4−–[W10O32]4−) can provide a clear understanding of the alkylation of N-tosylimine.

Graphical abstract: Theoretical insight into decatungstate photocatalyzed alkylation of N-tosylimine via hydrogen atom transfer and proton-coupled electron transfer

Supplementary files

Article information

Article type
Paper
Submitted
26 Mar 2022
Accepted
25 Apr 2022
First published
26 Apr 2022

Dalton Trans., 2022,51, 7928-7935

Theoretical insight into decatungstate photocatalyzed alkylation of N-tosylimine via hydrogen atom transfer and proton-coupled electron transfer

L. Meng, Y. Dong, B. Zhu, Y. Liang, Z. Su and W. Guan, Dalton Trans., 2022, 51, 7928 DOI: 10.1039/D2DT00927G

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