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DOI: 10.1055/a-2655-3113
Unlocking the Potential of Less-Stabilized Carbenes in Chemical Synthesis: Chromium-Catalyzed Asymmetric Cyclopropanation
Supported by: Zhejiang Provincial Key Laboratory Construction Project 2025ZY01063
Supported by: Zhejiang Provincial Natural Science Foundation of China LR25B020004,XHD23B0101
Supported by: National Natural Science Foundation of China 22171231
Chiral cyclopropanes are crucial structural motifs in pharmaceuticals and valuable building blocks in organic synthesis. Traditional access via diazo compounds is often hampered by the instability of precursors for non-stabilized carbenes. Our group has focused on harnessing earth-abundant chromium to catalyze asymmetric cyclopropanations using readily available gem-dihaloalkanes as robust carbene surrogates. This account details our journey, from the initial development of a highly diastereo- and enantioselective cyclopropanation of gem-dihaloalkanes and terminal olefins to a more advanced system employing α-boryl and α-silyl dibromomethanes. This latter work enabled the synthesis of complex cyclopropanes with three contiguous stereocenters and led to the elucidation of a Cr(II)-based metalloradical catalytic pathway. These studies collectively showcase the power of chromium catalysis to unlock novel reactivity and provide stereo-controlled access to a diverse range of valuable chiral cyclopropanes.
Publication History
Received: 13 June 2025
Accepted after revision: 14 July 2025
Accepted Manuscript online:
14 July 2025
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