Herein, we discuss the synthesis and mechanistic aspects underlying the formation of heterocycles, a fundamental class of structural motifs that play a pivotal role in pharmaceuticals, natural products, and functional organic materials.
Air-stable ruthenium(II) η6-arene isocyanide complexes are versatile catalytic precursors for terminal alkyne dimerization/trimerization in aqueous medium.
Isocyanides are versatile building blocks in organic synthesis. This review highlights photochemical and electrochemical transformations of isocyanides, focusing on mechanistic paradigms, key reaction manifolds, and sustainable applications.
This review outlines in detail strategies for state-of-the-art synthetic routes and demonstrates various interactions from the synergistic combination of C–H functionalization with multiple isocyanides to establish the complicated reactions.
This review focuses on the cyanation of isocyanides with recent advances and perspectives.