Amanda Q. Lee scite author profile

Three iron-5,10,15,20-tetraarylporphyrins (Fe(Por-Ar4), Ar = 2,3,5,6-tetrafluro-N,N,N-trimethylanilinium (1), N,N,N-trimethylanilinium (2), and p-sulfonatophenyl (3)) have been investigated as catalysts for the dismutation of chlorite (ClO2-). Degradation of ClO2- by these catalysts occurs by two concurrent pathways. One leads to formation of chlorate (ClO3-) and chloride (Cl-), which is determined to be catalyzed by O=FeIV(Por) (Compound II) based on stopped-flow absorption spectroscopy, competition with 2,2'-Azino-bis(3-ethylbenzothiazoline-6-sulfonicacid), 18O-labeling studies, and kinetics. The second pathway is a concerted dismutation of chlorite to dioxygen (O2) and chloride. On the basis of isotope labeling studies using a residual gas analyzer, the mechanism is determined to be formation of O=FeIV(Por)*+ (Compound I) from oxygen atom transfer, and subsequent rebound with the resulting hypochlorite ion (ClO-) to give dioxygen and chloride. While the chlorate production pathway is dominant for catalysts 2 and 3, the O2-producing pathway is significant for catalyst 1. In addition to chlorite dismutation, complex 1 catalyzes hypochlorite disproportionation to chloride and dioxygen quantitatively.

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Bioinspired Dismutation of Chlorite to Dioxygen and Chloride Catalyzed by a Water‐Soluble Iron Porphyrin

Zdilla

Lee

Abu‐Omar

2008

Angew Chem Int Ed

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Bioinspired Dismutation of Chlorite to Dioxygen and Chloride Catalyzed by a Water‐Soluble Iron Porphyrin

2008

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Amanda Q. Lee

Mechanism of and exquisite selectivity for O–O bond formation by the heme-dependent chlorite dismutase

Concerted Dismutation of Chlorite Ion: Water-Soluble Iron-Porphyrins As First Generation Model Complexes for Chlorite Dismutase

Bioinspired Dismutation of Chlorite to Dioxygen and Chloride Catalyzed by a Water‐Soluble Iron Porphyrin

Bioinspired Dismutation of Chlorite to Dioxygen and Chloride Catalyzed by a Water‐Soluble Iron Porphyrin

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