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• W1987560762 abstract "Abstract A bridging carbonyl intermediate with key structural elements of the diiron sub‐site of all‐iron hydrogenase has been experimentally observed in the CN/CO substitution pathway of the {2Fe3S} carbonyl precursor, [Fe 2 (CO) 5 {MeSCH 2 C(Me)(CH 2 S) 2 }]. Herein we have used density functional theory (DFT) to dissect the overall substitution pathway in terms of the energetics and the structures of transition states, intermediates and products. We show that the formation of bridging CO transitions states is explicitly involved in the intimate mechanism of dicyanation. The enhanced rate of monocyanation of {2Fe3S} over the {2Fe2S} species [Fe 2 (CO) 6 {CH 2 (CH 2 S) 2 }] is found to rest with the ability of the thioether ligand to both stabilise a μ‐CO transition state and act as a good leaving group. In contrast, the second cyanation step of the {2Fe3S} species is kinetically slower than for the {2Fe2S} monocyanide because the Fe2 atom is deactivated by coordination of the electron‐donating thioether group. In addition, hindered rotation and the reaction coordinate of the approaching CN − group, are other factors which explain reactivity differences in {2Fe2S} and {2Fe3S} systems. The intermediate species formed in the second cyanation step of {2Fe3S} species is a μ‐CO species, confirming the structural assignment made on the basis of FT‐IR data (S. J. George, Z. Cui, M. Razavet, C. J. Pickett, Chem. Eur. J. 2002 , 8 , 4037–4046). In support of this we find that computed and experimental IR frequencies of structurally characterised {2Fe3S} species and those of the bridging carbonyl intermediate are in excellent agreement. In a wider context, the study may provide some insight into the reactivity of dinuclear systems in which neighbouring group on‐off coordination plays a role in substitution pathways." @default.
• W1987560762 created "2016-06-24" @default.
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• W1987560762 date "2004-12-29" @default.
• W1987560762 modified "2023-10-17" @default.
• W1987560762 title "Dissecting the Intimate Mechanism of Cyanation of {2Fe3S} Complexes Related to the Active Site of All-Iron Hydrogenases by DFT Analysis of Energetics, Transition States, Intermediates and Products in the Carbonyl Substitution Pathway" @default.
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• W1987560762 doi "https://doi.org/10.1002/chem.200400442" @default.
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