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Synthesis of FeIII and FeIV Cyanide Complexes Using Hypervalent Iodine Reagents as Cyano‐Transfer One‐Electron Oxidants

We disclose a new reactivity mode for electrophilic cyano λ3‐iodanes as group transfer one‐electron oxidants to synthesize FeIII and FeIV cyanide complexes. The inherent thermal instability of high‐valent FeIV compounds without π‐donor ligands (such as oxido (O2−), imido (RN2−) or nitrido (N3−)) mak...

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Published in:	Angewandte Chemie 2022-05, Vol.134 (22), p.n/a
Main Authors:	Souilah, Charafa, Jannuzzi, Sergio A. V., Demirbas, Derya, Ivlev, Sergei, Swart, Marcel, DeBeer, Serena, Casitas, Alicia
Format:	Article
Language:	English
Subjects:	Chemistry Computer applications Crystal structure Cyanides Electron transfer Electronic structure Group-Transfer Reactions Hypervalent Compounds Iodine Iron Iron(IV) Cyanide Oxidants Oxidation Oxidizing agents Reagents Single crystals Single electrons Single-Electron Transfer Spectroscopy Structural analysis Synthesis Thermal instability
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creator	Souilah, Charafa Jannuzzi, Sergio A. V. Demirbas, Derya Ivlev, Sergei Swart, Marcel DeBeer, Serena Casitas, Alicia
description	We disclose a new reactivity mode for electrophilic cyano λ3‐iodanes as group transfer one‐electron oxidants to synthesize FeIII and FeIV cyanide complexes. The inherent thermal instability of high‐valent FeIV compounds without π‐donor ligands (such as oxido (O2−), imido (RN2−) or nitrido (N3−)) makes their isolation and structural characterization a very challenging task. We report the synthesis of an FeIV cyanide complex [(N3N′)FeCN] (4) by two consecutive single electron transfer (SET) processes from FeII precursor [(N3N′)FeLi(THF)] (1) with cyanobenziodoxolone (CBX). The FeIV complex can also be prepared by reaction of [(N3N′)FeIII] (3) with CBX. In contrast, the oxidation of FeII with 1‐cyano‐3,3‐dimethyl‐3‐(1H)‐1,2‐benziodoxole (CDBX) enables the preparation of FeIII cyanide complex [(N3N′)FeIII(CN)(Li)(THF)3] (2‐LiTHF). Complexes 4 and 2‐LiTHF have been structurally characterized by single crystal X‐ray diffraction and their electronic structure has been examined by Mössbauer, EPR spectroscopy, and computational analyses. Cyano λ3‐iodanes react with iron(II) and iron(III) complexes as cyano‐transfer one‐electron oxidants. This approach enables the straightforward synthesis of iron(III) and iron(IV) cyanide complexes, which have been thoroughly characterized by spectroscopic methods, including X‐ray diffraction, EPR, Mössbauer and NMR spectroscopies and computational methods.
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In contrast, the oxidation of FeII with 1‐cyano‐3,3‐dimethyl‐3‐(1H)‐1,2‐benziodoxole (CDBX) enables the preparation of FeIII cyanide complex [(N3N′)FeIII(CN)(Li)(THF)3] (2‐LiTHF). Complexes 4 and 2‐LiTHF have been structurally characterized by single crystal X‐ray diffraction and their electronic structure has been examined by Mössbauer, EPR spectroscopy, and computational analyses. Cyano λ3‐iodanes react with iron(II) and iron(III) complexes as cyano‐transfer one‐electron oxidants. 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We report the synthesis of an FeIV cyanide complex [(N3N′)FeCN] (4) by two consecutive single electron transfer (SET) processes from FeII precursor [(N3N′)FeLi(THF)] (1) with cyanobenziodoxolone (CBX). The FeIV complex can also be prepared by reaction of [(N3N′)FeIII] (3) with CBX. In contrast, the oxidation of FeII with 1‐cyano‐3,3‐dimethyl‐3‐(1H)‐1,2‐benziodoxole (CDBX) enables the preparation of FeIII cyanide complex [(N3N′)FeIII(CN)(Li)(THF)3] (2‐LiTHF). Complexes 4 and 2‐LiTHF have been structurally characterized by single crystal X‐ray diffraction and their electronic structure has been examined by Mössbauer, EPR spectroscopy, and computational analyses. Cyano λ3‐iodanes react with iron(II) and iron(III) complexes as cyano‐transfer one‐electron oxidants. 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subjects	Chemistry Computer applications Crystal structure Cyanides Electron transfer Electronic structure Group-Transfer Reactions Hypervalent Compounds Iodine Iron Iron(IV) Cyanide Oxidants Oxidation Oxidizing agents Reagents Single crystals Single electrons Single-Electron Transfer Spectroscopy Structural analysis Synthesis Thermal instability
title	Synthesis of FeIII and FeIV Cyanide Complexes Using Hypervalent Iodine Reagents as Cyano‐Transfer One‐Electron Oxidants
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