Abstract
In the presence of excess amounts of elemental sulfur, the dimolybdenum dinitrogen complex {Cp*Mo[N(iPr)C(Ph)N(iPr)]}2(μ-N2) (4; Cp* = η5-C5Me5) serves as a precatalyst for the production of isothiocyanates from isonitriles via highly efficient and atom-economical metal-mediated sulfur atom transfer (SAT) under mild conditions. Mechanistic and structural studies support a catalytic cycle for SAT involving initial formation of a Mo(II) bis(isonitrile) complex that then undergoes sulfination to generate a formal “side-bound” Mo(IV) κ2-(C,S)-isothiocyanate as the key intermediate. This metal-catalyzed SAT process has further been employed for the “on-demand” production of isothiocyanates that are trapped in situ by benzhydrazides to provide thiosemicarbazides, which are useful precursors to biologically active thiadiazoles.
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