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Abstract
A gallacyclopentene complex is generated via oxidative cyclization of a Ga(I) complex bearing a phenalenyl-based ligand with a 1,3-diene. Upon visible-light irradiation, the Ga(III) complex undergoes homolytic cleavage of a Ga–C bond, facili-tating the subsequent mono- and double-insertion reactions with isocyanides. The double insertion complex undergoes reductive elimination to afford 1,2-phenylenediamine, achieving a [4+1+1] cycloaddition of 1,3-dienes and isocyanides via oxidative cyclization, insertion, and reductive elimination at gallium. This study demonstrates a proof-of-concept for two-electron redox processes of group 13 elements for organic synthesis.
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Detailed experimental procedures, characterization of new compounds, and computational details
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