Experimental determination of redox cooperativity and electronic structures in catalytically active Cu-Fe and Zn-Fe heterobimetallic complexes

Complexes of the type (NHC)M-Fp (NHC = N-heterocyclic carbene, M = Cu or ZnCl, Fp = FeCp(CO)2) have been used recently as replacements for noble metal C-H functionalization catalysts and for small molecule activation studies. The promising reactivity of these systems has been linked to the use of th...

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Veröffentlicht in:	Dalton transactions : an international journal of inorganic chemistry 2014-09, Vol.43 (36), p.13661-13671
Hauptverfasser:	Karunananda, Malkanthi K, Vázquez, Francisco X, Alp, E Ercan, Bi, Wenli, Chattopadhyay, Soma, Shibata, Tomohiro, Mankad, Neal P
Format:	Artikel
Sprache:	eng
Schlagworte:	Activation Bimetals Catalysis Copper Electronic structure Filled plastics Iron Zinc
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container_title	Dalton transactions : an international journal of inorganic chemistry
container_volume	43
creator	Karunananda, Malkanthi K Vázquez, Francisco X Alp, E Ercan Bi, Wenli Chattopadhyay, Soma Shibata, Tomohiro Mankad, Neal P
description	Complexes of the type (NHC)M-Fp (NHC = N-heterocyclic carbene, M = Cu or ZnCl, Fp = FeCp(CO)2) have been used recently as replacements for noble metal C-H functionalization catalysts and for small molecule activation studies. The promising reactivity of these systems has been linked to the use of the late metal electrophiles Cu and Zn in place of early metal electrophiles, and also to the ability of the M-Fe pairs to cooperate during catalytically relevant multielectron redox processes such as bimetallic oxidative addition and bimetallic reductive elimination. Using Mössbauer spectroscopy and metal K-edge XANES analysis, a detailed electronic structure description of these complexes is presented. One unusual feature of the late-metal M-Fp interactions is the presence of significant M → Fe π-backdonation in addition to Fe → M σ-donation; this π-backdonation is absent in early metal analogues and is apparent from analysis of Mössbauer data and Fe K-edge data. Multi-edge XANES analysis of C-I bimetallic oxidative addition at a Cu-Fe reaction center reveals little change in metal effective nuclear charges during the two-electron redox process. IR spectroscopy indicates that the supporting carbonyl ligands participate to a large extent in the redox process.
doi_str_mv	10.1039/c4dt01841a
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The promising reactivity of these systems has been linked to the use of the late metal electrophiles Cu and Zn in place of early metal electrophiles, and also to the ability of the M-Fe pairs to cooperate during catalytically relevant multielectron redox processes such as bimetallic oxidative addition and bimetallic reductive elimination. Using Mössbauer spectroscopy and metal K-edge XANES analysis, a detailed electronic structure description of these complexes is presented. One unusual feature of the late-metal M-Fp interactions is the presence of significant M → Fe π-backdonation in addition to Fe → M σ-donation; this π-backdonation is absent in early metal analogues and is apparent from analysis of Mössbauer data and Fe K-edge data. Multi-edge XANES analysis of C-I bimetallic oxidative addition at a Cu-Fe reaction center reveals little change in metal effective nuclear charges during the two-electron redox process. 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source	Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects	Activation Bimetals Catalysis Copper Electronic structure Filled plastics Iron Zinc
title	Experimental determination of redox cooperativity and electronic structures in catalytically active Cu-Fe and Zn-Fe heterobimetallic complexes
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