B(C6F5)3-Catalyzed Reductive C-C Bond Cleavage of Bisindolylmethanes

Kaibo Xu; Zhenguo Zhang; Bohan Li; Jinling Li; Teck Peng Loh; Zhenhua Jia

doi:10.1002/adsc.9580

B(C₆F₅)₃-Catalyzed Reductive C-C Bond Cleavage of Bisindolylmethanes

Kaibo Xu, Zhenguo Zhang, Bohan Li, Jinling Li, Teck Peng Loh, Zhenhua Jia

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摘要

In this study, B(C₆F₅)₃-catalyzed reductive C-C bond cleavage of bisindolylmethanes (BIMs) is reported as an efficient strategy for preparing C3-alkylated indoles. In the presence of silane, B(C₆F₅)₃ selectively activates Csp²-Csp³ bonds of BIMs under mild conditions. Moreover, this sustainable process exhibits a broad substrate scope, highly functional group tolerance, and excellent regioselectivity. Preliminary mechanistic studies disclose that the formation of stabilized ion-pair intermediates is crucial to achieving the desired transformation. Notably, the strategy provides a metal-free alternative to transition metal catalysis, enabling the sustainable synthesis of valuable indole derivatives.

源语言	英语
期刊	Advanced Synthesis and Catalysis
DOI	https://doi.org/10.1002/adsc.9580
出版状态	已接受/待刊 - 2025
已对外发布	是

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title = "B(C6F5)3-Catalyzed Reductive C-C Bond Cleavage of Bisindolylmethanes",

abstract = "In this study, B(C6F5)3-catalyzed reductive C-C bond cleavage of bisindolylmethanes (BIMs) is reported as an efficient strategy for preparing C3-alkylated indoles. In the presence of silane, B(C6F5)3 selectively activates Csp2-Csp3 bonds of BIMs under mild conditions. Moreover, this sustainable process exhibits a broad substrate scope, highly functional group tolerance, and excellent regioselectivity. Preliminary mechanistic studies disclose that the formation of stabilized ion-pair intermediates is crucial to achieving the desired transformation. Notably, the strategy provides a metal-free alternative to transition metal catalysis, enabling the sustainable synthesis of valuable indole derivatives.",

keywords = "bisindolylmethanes, C-C bond cleavages, C3-alkylated indoles, silanes, tris(pentafluorophenyl)borane",

author = "Kaibo Xu and Zhenguo Zhang and Bohan Li and Jinling Li and Loh, {Teck Peng} and Zhenhua Jia",

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doi = "10.1002/adsc.9580",

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journal = "Advanced Synthesis and Catalysis",

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T1 - B(C6F5)3-Catalyzed Reductive C-C Bond Cleavage of Bisindolylmethanes

AU - Xu, Kaibo

AU - Zhang, Zhenguo

AU - Li, Bohan

AU - Li, Jinling

AU - Loh, Teck Peng

AU - Jia, Zhenhua

PY - 2025

Y1 - 2025

N2 - In this study, B(C6F5)3-catalyzed reductive C-C bond cleavage of bisindolylmethanes (BIMs) is reported as an efficient strategy for preparing C3-alkylated indoles. In the presence of silane, B(C6F5)3 selectively activates Csp2-Csp3 bonds of BIMs under mild conditions. Moreover, this sustainable process exhibits a broad substrate scope, highly functional group tolerance, and excellent regioselectivity. Preliminary mechanistic studies disclose that the formation of stabilized ion-pair intermediates is crucial to achieving the desired transformation. Notably, the strategy provides a metal-free alternative to transition metal catalysis, enabling the sustainable synthesis of valuable indole derivatives.

AB - In this study, B(C6F5)3-catalyzed reductive C-C bond cleavage of bisindolylmethanes (BIMs) is reported as an efficient strategy for preparing C3-alkylated indoles. In the presence of silane, B(C6F5)3 selectively activates Csp2-Csp3 bonds of BIMs under mild conditions. Moreover, this sustainable process exhibits a broad substrate scope, highly functional group tolerance, and excellent regioselectivity. Preliminary mechanistic studies disclose that the formation of stabilized ion-pair intermediates is crucial to achieving the desired transformation. Notably, the strategy provides a metal-free alternative to transition metal catalysis, enabling the sustainable synthesis of valuable indole derivatives.

KW - bisindolylmethanes

KW - C-C bond cleavages

KW - C3-alkylated indoles

KW - silanes

KW - tris(pentafluorophenyl)borane

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U2 - 10.1002/adsc.9580

DO - 10.1002/adsc.9580

M3 - 文章

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SN - 1615-4150

JO - Advanced Synthesis and Catalysis

JF - Advanced Synthesis and Catalysis

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