Bimetallic Cooperativity of a Ferrocene-Based Iridium NHC Complex in Water Oxidation Catalysis: A New Frontier for Efficient Oxygen Evolution.

Bimetallic catalysts have gained attention as promising contenders, owing to the synergistic interaction between two distinct metal centers. In this study, we present two N-heterocyclic carbene iridium(III) pentamethylcyclopentadienyl complexes [Cp*Ir(fcpyNHC)Cl]PF (1) and [Cp*Ir(pyNHC)Cl]PF (2) where 1 includes a ferrocene moiety making it a bimetallic complex. Using ceric ammonium nitrate as a sacrificial oxidant, both complexes were tested for water oxidation. Complex 2 achieved a maximum turnover number (TON) of 3240 and a turnover frequency (TOF) of 231 min. In comparison, complex 1 demonstrated nearly double the activity with a TON of 6047 and TOF of 431 min compared to 2, which was attributed to the cooperative effect of the catalyst in water oxidation reaction. This bimetallic Fe Ir catalyst (1) exhibited outstanding catalytic efficiency for oxygen evolution from water at ambient conditions. We identified a proposed Fe Ir intermediate experimentally via UV-Vis spectroscopy and XPS study. Theoretically, this intermediate was more stable by 7.84 kcal/mol than the traditional Fe Ir electromer intermediate. This delineates the pronounced bimetallic cooperative participation of both Fe and Ir metal centres for better activity.