Snehadri Bhakta scite author profile

Oxygen reduction and water oxidation are two key processes in fuel cell applications. The oxidation of water to dioxygen is a 4 H+/4 e− process, while oxygen can be fully reduced to water by a 4 e−/4 H+ process or partially reduced by fewer electrons to reactive oxygen species such as H2O2 and O2 −. We demonstrate that a novel manganese corrole complex behaves as a bifunctional catalyst for both the electrocatalytic generation of dioxygen as well as the reduction of dioxygen in aqueous media. Furthermore, our combined kinetic, spectroscopic, and electrochemical study of manganese corroles adsorbed on different electrode materials (down to a submolecular level) reveals mechanistic details of the oxygen evolution and reduction processes.

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Influence of the distal guanidine group on the rate and selectivity of O₂ reduction by iron porphyrin

Ghatak

Bhakta

Bhunia

et al. 2019

Chem. Sci.

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Induction of Enzyme-like Peroxidase Activity in an Iron Porphyrin Complex Using Second Sphere Interactions

et al. 2019

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Emulating enzymatic reactivity using small molecules has been a long-time challenging pursuit of the scientific community. Peroxidases, ubiquitous heme enzymes that are involved in hormone synthesis and the immune system, have been a prime target of such efforts due to their tremendous potential in the chemical industry as well as in wastewater treatment. Here it is demonstrated that inclusion of a second sphere guanidine moiety in an iron porphyrin not only makes this small molecule a veritable peroxidase catalyst but also offers an auxiliary binding site for organic substrates, facilitating their rapid oxidation with a green oxidant like H2O2. This small molecule analogue exhibits a “ping–pong” mechanism and Michaelis–Menten type kinetics, which is generally typical of metallo-enzymes and follows a mechanism of the natural enzyme in its entirety, including the formation of compound I as the primary oxidant.

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A Bifunctional Electrocatalyst for Oxygen Evolution and Oxygen Reduction Reactions in Water

et al. 2016

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Role of distal arginine residue in the mechanism of heme nitrite reductases

et al. 2023

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Snehadri Bhakta

A Bifunctional Electrocatalyst for Oxygen Evolution and Oxygen Reduction Reactions in Water

Influence of the distal guanidine group on the rate and selectivity of O₂ reduction by iron porphyrin

Induction of Enzyme-like Peroxidase Activity in an Iron Porphyrin Complex Using Second Sphere Interactions

A Bifunctional Electrocatalyst for Oxygen Evolution and Oxygen Reduction Reactions in Water

Role of distal arginine residue in the mechanism of heme nitrite reductases

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Snehadri Bhakta

A Bifunctional Electrocatalyst for Oxygen Evolution and Oxygen Reduction Reactions in Water

Influence of the distal guanidine group on the rate and selectivity of O2 reduction by iron porphyrin

Induction of Enzyme-like Peroxidase Activity in an Iron Porphyrin Complex Using Second Sphere Interactions

A Bifunctional Electrocatalyst for Oxygen Evolution and Oxygen Reduction Reactions in Water

Role of distal arginine residue in the mechanism of heme nitrite reductases

Contact Info

Product

Resources

About

Influence of the distal guanidine group on the rate and selectivity of O₂ reduction by iron porphyrin