Molybdenum-Mediated Coupling of Carbon Monoxide to a C₃ Product on a Single Metal Site

Abstract

The synthesis and characterization of a series of naphthalenediyl-diphosphine molybdenum complexes are reported. A novel dicarbonyl–Mo complex (3) converts to a bis(siloxy)acetylene complex (5) upon reduction and treatment with a silyl electrophile, Me₃SiCl. This process shows exclusive C–C coupling distinct from the previously reported phenylene-linked analogue that undergoes C–O cleavage. Further CO catenation can be engendered from 5 under mild conditions providing metallacyclobutenone complex 6, with a C₃O₃ organic motif derived from CO. Differences in reactivity are assigned to the nature of the arene linker, where the naphthalenediyl fragment shows a propensity for η⁴ binding previously not observed for phenylene. Consistent with this hypothesis, a Mo precursor with a 1,3-cyclohexadienediyl-based linker was prepared which also showed exclusive formation of a bis(siloxy)acetylene complex and subsequent coupling of a third CO molecule.

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