AI Article Synopsis
- The tetradentate PNNP-type Ir complex Mes-IrPCY2 ([Cl-Ir-H]) is an effective catalyst for converting CO to formate under visible light, showing high selectivity for this reaction.
- Density functional calculations reveal that the double-reduced complex 1-H ([Ir-H]) is more active than the single-reduced complex 2-H ([Ir(L˙)-H]), largely due to its superior hydride donor ability, making 1-H the key species in the CO reduction process.
- The hydride of 1-H facilitates a nucleophilic attack on CO to produce formate, while also indicating that the CO reduction is favored over hydrogen evolution in line with experimental findings.
Article Abstract
The tetradentate PNNP-type Ir complex Mes-IrPCY2 ([Cl-Ir-H]) is reported to be an efficient catalyst for the reduction of CO to formate with excellent selectivity under visible light irradiation. Density functional calculations have been carried out to elucidate the mechanism and the origin of selectivity in the present work. Calculations suggest that the double-reduced complex 1-H ([Ir-H]) demonstrates higher activity than the single-reduced complex 2-H ([Ir(L˙)-H]), possibly owing to the higher hydride donor ability of the former compared to the latter; thus 1-H functions as the active species in the overall CO reduction reaction. In the HCOO formation pathway, the hydride of 1-H performs a nucleophilic attack on CO an outer-sphere fashion to generate species 1-OCHO ([Ir-OCHO]), which then releases HCOO to produce an Ir intermediate. A subsequent protonation and chloride coordination of the Ir center leads to the regeneration of catalyst [Cl-Ir-H]. For the CO production, a nucleophilic attack on CO takes place by the Ir atom of 1-H an inner-sphere manner to afford complex O2C-3-H ([OC-Ir-H]), followed by a two-proton-one-electron reduction to furnish the OC-2-H complex ([OC-Ir(L˙)-H]) after liberating a HO. Ultimately, CO is released to form 2-H. The stronger nucleophilicity as well as smaller steric hindrance of the hydride than the Ir atom of the active species 1-H ([Ir-H]) is found to account for the favoring of formate formation over CO formation. Meanwhile, the CO reduction reaction is calculated to be preferred over the hydrogen evolution reaction, and this is consistent with the experimental product distributions.
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