Recent advances of calcium(II) triflimide in organic synthesis

Abstract

Environmentally benign calcium(II) triflimide has emerged as a sustainable substitute for transition-metal catalysts, rare-earth metals, and strong Brønsted acids in promoting organic synthesis, thereby attracting considerable attention. Recently, elegant methodologies involving calcium(II) triflimide have been developed, such as cyclizations, dehydrative functionalizations, hydroarylation reactions, hydrofunctionalizations, reductions, rearrangements, and novel selenylations, hese have been applied to a diverse range of substrates inculding alcohols, alkenes, alkynes, carbonyl compounds, imines, N,O-acetals, and selenides for the formation of C–C or C–X bond. This review provides a comprehensive and detailed overview of the recent progress in the application of calcium(II) triflimideas as an organic synthesis catalyst, summarizing the crucial achievements in reaction methodologies and the plausible reaction mechanisms.