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Bio‐Inspired Bimetallic Cooperativity Through a Hydrogen Bonding Spacer in CO 2 Reduction

2022; Wiley; Volume: 62; Issue: 8 Linguagem: Inglês

10.1002/anie.202214665

1521-3773

Chanjuan Zhang, Philipp Gotico, Régis Guillot, Diana Dragoé, Winfried Leibl, Zakaria Halime, Ally Aukauloo,

Metalloenzymes and iron-sulfur proteins

At the core of carbon monoxide dehydrogenase (CODH) active site two metal ions together with hydrogen bonding scheme from amino acids orchestrate the interconversion between CO2 and CO. We have designed a molecular catalyst implementing a bimetallic iron complex with an embarked second coordination sphere with multi-point hydrogen-bonding interactions. We found that, when immobilized on carbon paper electrode, the dinuclear catalyst enhances up to four fold the heterogeneous CO2 reduction to CO in water with an improved selectivity and stability compared to the mononuclear analogue. Interestingly, quasi-identical catalytic performances are obtained when one of the two iron centers was replaced by a redox inactive Zn metal, questioning the cooperative action of the two metals. Snapshots of X-ray structures indicate that the two metalloporphyrin units tethered by a urea group is a good compromise between rigidity and flexibility to accommodate CO2 capture, activation, and reduction.