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From Divalent to Pentavalent Iron Imido Complexes and an Fe(V) Nitride via N-C Bond Cleavage.

Authors :
Keilwerth M
Mao W
Jannuzzi SAV
Grunwald L
Heinemann FW
Scheurer A
Sutter J
DeBeer S
Munz D
Meyer K
Source :
Journal of the American Chemical Society [J Am Chem Soc] 2023 Jan 18; Vol. 145 (2), pp. 873-887. Date of Electronic Publication: 2022 Dec 30.
Publication Year :
2023

Abstract

As key intermediates in metal-catalyzed nitrogen-transfer chemistry, terminal imido complexes of iron have attracted significant attention for a long time. In search of versatile model compounds, the recently developed second-generation N -anchored tris -NHC chelating ligand t ris -[2-(3-mesityl- im idazole-2-ylidene)- m ethyl]ami n e (TIMMN <superscript>Mes</superscript> ) was utilized to synthesize and compare two series of mid- to high-valent iron alkyl imido complexes, including a reactive Fe(V) adamantyl imido intermediate en route to an isolable Fe(V) nitrido complex. The chemistry toward the iron adamantyl imides was achieved by reacting the Fe(I) precursor [(TIMMN <superscript>Mes</superscript> )Fe <superscript>I</superscript> (N <subscript>2</subscript> )] <superscript>+</superscript> ( 1 ) with 1-adamantyl azide to yield the corresponding trivalent iron imide. Stepwise chemical reduction and oxidation lead to the isostructural series of low-spin [(TIMMN <superscript>Mes</superscript> )Fe(NAd)] <superscript>0,1+,2+,3+</superscript> ( 2 <superscript> Ad </superscript> - 5 <superscript> Ad </superscript> ) in oxidation states II to V. The Fe(V) imide [(TIMMN <superscript>Mes</superscript> )Fe(NAd)] <superscript>3+</superscript> ( 5 <superscript> Ad </superscript> ) is unstable under ambient conditions and converts to the air-stable nitride [(TIMMN <superscript>Mes</superscript> )Fe <superscript>V</superscript> (N)] <superscript>2+</superscript> ( 6 ) via N-C bond cleavage. The stability of the pentavalent imide can be increased by derivatizing the nitride [(TIMMN <superscript>Mes</superscript> )Fe <superscript>IV</superscript> (N)] <superscript>+</superscript> ( 7 ) with an ethyl group using the triethyloxonium salt Et <subscript>3</subscript> OPF <subscript>6</subscript> . This gives access to the analogous series of ethyl imides [(TIMMN <superscript>Mes</superscript> )Fe(NEt)] <superscript>0,1+,2+,3+</superscript> ( 2 <superscript> Et </superscript> - 5 <superscript> Et </superscript> ), including the stable Fe(V) ethyl imide. Iron imido complexes exist in a manifold of different electronic structures, ultimately controlling their diverse reactivities. Accordingly, these complexes were characterized by single-crystal X-ray diffraction analyses, SQUID magnetization, and electrochemical methods, as well as <superscript>57</superscript> Fe Mössbauer, IR vibrational, UV/vis electronic absorption, multinuclear NMR, X-band EPR, and X-ray absorption spectroscopy. Our studies are complemented with quantum chemical calculations, thus providing further insight into the electronic structures of all complexes.

Details

Language :
English
ISSN :
1520-5126
Volume :
145
Issue :
2
Database :
MEDLINE
Journal :
Journal of the American Chemical Society
Publication Type :
Academic Journal
Accession number :
36583993
Full Text :
https://doi.org/10.1021/jacs.2c09072