Hemilabile Proton Relays and Redox Activity Lead to {FeNO} x and Significant Rate Enhancements in NO 2 - Reduction

Hemilabile Proton Relays and Redox Activity Lead to {FeNO} x and Significant Rate Enhancements in NO 2 - Reduction

Incorporation of the triad of redox activity, hemilability, and proton responsivity into a single ligand scaffold is reported. Due to this triad, the complexes Fe( PDI)(CO) (3) and Fe( PDI)(CO) (4) display 40-fold enhancements in the initial rate of NO reduction, with respect to Fe( PDI)(CO) (7). Ut...

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Veröffentlicht in:Journal of the American Chemical Society 2018-12, Vol.140 (49), p.17040-17050
Hauptverfasser: Cheung, Pui Man, Burns, Kyle T, Kwon, Yubin M, Deshaye, Megan Y, Aguayo, Kristopher J, Oswald, Victoria F, Seda, Takele, Zakharov, Lev N, Kowalczyk, Tim, Gilbertson, John D
Format: Artikel
Sprache:eng
Schlagworte:
Coordination Complexes - chemical synthesis
Coordination Complexes - chemistry
Density Functional Theory
Iron - chemistry
Kinetics
Ligands
Models, Chemical
Nitric Oxide - chemical synthesis
Nitrites - chemistry
Oxidation-Reduction
Protons
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Zusammenfassung:Incorporation of the triad of redox activity, hemilability, and proton responsivity into a single ligand scaffold is reported. Due to this triad, the complexes Fe( PDI)(CO) (3) and Fe( PDI)(CO) (4) display 40-fold enhancements in the initial rate of NO reduction, with respect to Fe( PDI)(CO) (7). Utilizing the proper sterics and p K of the pendant base(s) to introduce hemilability into our ligand scaffolds, we report unusual {FeNO} mononitrosyl iron complexes (MNICs) as intermediates in the NO reduction reaction. The {FeNO} species behave spectroscopically and computationally similar to {FeNO} , an unusual intermediate-spin Fe(III) coupled to triplet NO and a singly reduced PDI ligand. These {FeNO} MNICs facilitate enhancements in the initial rate.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.8b08520