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Modular access to alkylgermanes via reductive germylative alkylation of activated olefins under nickel catalysis

Rui Gu, Xiujuan Feng, Ming Bao, Xuan Zhang

2023Nature Communications25 citationsDOIOpen Access PDF

Abstract

Abstract Carbon-introducing difunctionalization of C-C double bonds enabled by transition-metal catalysis is one of most straightforward and efficient strategies to construct C-C and C-X bonds concurrently from readily available feedstocks towards structurally diverse molecules in one step; however, analogous difunctionalization for introducing germanium group and other functionalities remains elusive. Herein, we describe a nickel-catalyzed germylative alkylation of activated olefins with easily accessible primary, secondary and tertiary alkyl bromides and chlorogermanes as the electrophiles to form C-Ge and C-C alkyl bonds simultaneously. This method provides a modular and facile approach for the synthesis of a broad range of alkylgermanes with good functional group compatibility, and can be further applied to the late-stage modification of natural products and pharmaceuticals, as well as ligation of drug fragments. More importantly, this platform enables the expedient synthesis of germanium substituted ospemifene-Ge-OH, which shows improved properties compared to ospemifene in the treatment of breast cancer cells, demonstrating high potential of our protocol in drug development.

Topics & Concepts

AlkylationCatalysisNickelChemistryModular designCombinatorial chemistryOrganic chemistryComputer scienceOperating systemCatalytic C–H Functionalization MethodsCatalytic Cross-Coupling ReactionsAsymmetric Synthesis and Catalysis
Modular access to alkylgermanes via reductive germylative alkylation of activated olefins under nickel catalysis | Litcius