Lewis Acid Enhancement of Proton Induced CO_2 Cleavage: Bond Weakening and Ligand Residence Time Effects

Creators: Buss, Joshua A.; VanderVelde, David G.; Agapie, Theodor

Abstract

Though Lewis acids (LAs) have been shown to have profound effects on carbon dioxide (CO_2) reduction catalysis, the underlying cause of the improved reactivity remains unclear. Herein, we report a well-defined molecular system for probing the role of LA additives in the reduction of CO_2 to carbon monoxide (CO) and water. Mo(0) CO_2 complex (2) forms adducts with a series of LAs, demonstrating CO_2 activation that correlates linearly with the strength of the LA. Protons induce C–O cleavage of these LA adducts, in contrast to the CO_2 displacement primarily observed in the absence of LA. CO_2 cleavage shows dependence on both bond activation and the residence time of the bound small molecule, demonstrating the influence of both kinetic and thermodynamic factors on promoting productive CO_2 reduction chemistry.

Additional Information

© 2018 American Chemical Society. Received: June 8, 2018; Published: July 23, 2018. We thank Larry Henling and Mike Takase for invaluable crystallographic assistance. T.A. is grateful for a Dreyfus fellowship and J.A.B. for a NSF graduate research fellowship. We thank the NSF (CHE-1151918 and CHE-1800501), the Dow Next Generation Education Fund (for instrumentation at Caltech), and Caltech for funding. The authors declare no competing financial interest.

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