Viologen-radical-driven Hydrogen Evolution from Water Catalyzed by Co-NHC Catalysts: Radical Scavenging by Nitrate and Volmer-Heyrovsky-like CPET Pathway

02 December 2024, Version 3
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The factors controlling the catalytic activity in photochemical hydrogen evolution reaction (HER) are studied in detail for two macrocyclic cobalt compounds bearing two N-heterocyclic carbenes and two pyridyl donors (Co-NHC1 and Co-NHC2, where Co-NHC2 has a methoxy substituent on each pyridyl ligand). The present study adopts an aqueous photosystem consisting of EDTA, [Ru(bpy)3]2+ (bpy = 2,2’-bipyridine), and MV2+ (MV2+ = methylviologen) at pH = 5. Both catalysts are shown to promote HER in a similar efficiency (TON = 12-13 in 6 h), revealing a minor contribution of the electron-donating methoxy substituents. The catalyst degradation is shown to proceed during the photocatalysis, leading to afford [Co(edta)]− (EDTA = H4edta) as a dead-end species. The lack of any heterogeneous species was evidenced by DLS (dynamic light scattering). It was also found that nitrate involved as a counter anion in the photocatalysis components substantially inhibits the photocatalytic HER, giving rise to a large diminishment in TON from 12.7 to 7.2. The Griess test was used to confirm that NO3− serves as a scavenger deactivating the reduced form of MV2+ (i.e., MV+•). The detailed spectroscopic study reveals that the radical dimer (MV+•)2 species plays a key role in promoting the one-step two-electron process: (MV+•)2 + NO3− + 2H+ → 2MV2+ + NO2− + H2O. Experimental and DFT results also reveal that a unique double CPET (concerted proton-electron transfer) pathway is taken to evolve H2 by the Co-NHC catalysts with substantially minimized reorganization energies: Co(II)-NHC → Co(III)(H)-NHC → Co(II)-NHC + H2. This pathway can be viewed as related to the so-called Volmer-Heyrovsky mechanism adopted by some metals and is quite unique to the Co-NHC catalysts.

Supplementary materials

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Supporting Information
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Additional data (electrochemical results, DLS results, spectroscopic data, H2 evolution profiles, kinetic analysis data, and DFT results).
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