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Literature DB >> 28170241

Activating Fe(I) Porphyrins for the Hydrogen Evolution Reaction Using Second-Sphere Proton Transfer Residues.

Atanu Rana¹, Biswajit Mondal¹, Pritha Sen¹, Subal Dey¹, Abhishek Dey¹.

Abstract

Iron porphyrin complexes with second-sphere distal triazole residues show a hydrogen evolution reaction (HER) catalyzed by the Fe(I) state in both organic and aqueous media, whereas an analogous iron porphyrin complex without the distal residues catalyzes the HER in the formal Fe(0) state. This activation of the Fe(I) state by the second-sphere residues lowers the overpotential of the HER by these iron porphyrin complexes by 50%. Experimental data and theoretical calculations indicate that the distal triazole residues, once protonated, enhance the proton affinity of the iron center via formation of a dihydrogen bond with an Fe(III)-H- intermediate.

Entities: Chemical

Year: 2017 PMID： 28170241 DOI： 10.1021/acs.inorgchem.6b01707

Source DB: PubMed Journal: Inorg Chem ISSN： 0020-1669 Impact factor: 5.165

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Cited

7 in total

Activating Fe(I) Porphyrins for the Hydrogen Evolution Reaction Using Second-Sphere Proton Transfer Residues.

1. Iridium-based hydride transfer catalysts: from hydrogen storage to fine chemicals.

2. Electro- and Solar-Driven Fuel Synthesis with First Row Transition Metal Complexes.

3. A bi-functional cobalt-porphyrinoid electrocatalyst: balance between overpotential and selectivity.

4. Incorporation of redox-inactive cations promotes iron catalyzed aerobic C-H oxidation at mild potentials.

5. Positional effects of second-sphere amide pendants on electrochemical CO₂ reduction catalyzed by iron porphyrins.

Review 6. Outer-coordination sphere in multi-H⁺/multi-e^-molecular electrocatalysis.

7. Proton Relay in Iron Porphyrins for Hydrogen Evolution Reaction.

Activating Fe(I) Porphyrins for the Hydrogen Evolution Reaction Using Second-Sphere Proton Transfer Residues.

1. Iridium-based hydride transfer catalysts: from hydrogen storage to fine chemicals.

2. Electro- and Solar-Driven Fuel Synthesis with First Row Transition Metal Complexes.

3. A bi-functional cobalt-porphyrinoid electrocatalyst: balance between overpotential and selectivity.

4. Incorporation of redox-inactive cations promotes iron catalyzed aerobic C-H oxidation at mild potentials.

5. Positional effects of second-sphere amide pendants on electrochemical CO2 reduction catalyzed by iron porphyrins.

Review 6. Outer-coordination sphere in multi-H+/multi-e-molecular electrocatalysis.

7. Proton Relay in Iron Porphyrins for Hydrogen Evolution Reaction.

5. Positional effects of second-sphere amide pendants on electrochemical CO₂ reduction catalyzed by iron porphyrins.

Review 6. Outer-coordination sphere in multi-H⁺/multi-e^-molecular electrocatalysis.