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Literature DB >> 31943389

Iron Porphyrin Allows Fast and Selective Electrocatalytic Conversion of CO₂ to CO in a Flow Cell.

Kristian Torbensen¹, Cheng Han^1,2, Benjamin Boudy¹, Niklas von Wolff¹, Caroline Bertail³, Waldemar Braun⁴, Marc Robert¹.

Abstract

Molecular catalysts have been shown to have high selectivity for CO2 electrochemical reduction to CO, but with current densities significantly below those obtained with solid-state materials. By depositing a simple Fe porphyrin mixed with carbon black onto a carbon paper support, it was possible to obtain a catalytic material that could be used in a flow cell for fast and selective conversion of CO2 to CO. At neutral pH (7.3) a current density as high as 83.7 mA cm-2 was obtained with a CO selectivity close to 98 %. In basic solution (pH 14), a current density of 27 mA cm-2 was maintained for 24 h with 99.7 % selectivity for CO at only 50 mV overpotential, leading to a record energy efficiency of 71 %. In addition, a current density for CO production as high as 152 mA cm-2 (>98 % selectivity) was obtained at a low overpotential of 470 mV, outperforming state-of-the-art noble metal based catalysts.

Entities: Chemical

Keywords: Fe complex; carbon dioxide reduction; carbon monoxide; flow cell; hybrid materials

Year: 2020 PMID： 31943389 DOI： 10.1002/chem.202000160

Source DB: PubMed Journal: Chemistry ISSN： 0947-6539 Impact factor: 5.236

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Cited

4 in total

4. Exploring the Electrochemistry of Iron Dithiolene and Its Potential for Electrochemical Homogeneous Carbon Dioxide Reduction.

Authors: Craig G Armstrong; Mark Potter; Thomas Malcomson; Ross W Hogue; Sapphire M Armstrong; Andrew Kerridge; Kathryn E Toghill
Journal: ChemElectroChem Date: 2022-08-04 Impact factor: 4.782

4 in total

Iron Porphyrin Allows Fast and Selective Electrocatalytic Conversion of CO₂ to CO in a Flow Cell.

Review 1. Recent Progress in (Photo-)-Electrochemical Conversion of CO₂ With Metal Porphyrinoid-Systems.

Review 2. Transition Metal Complexes as Catalysts for the Electroconversion of CO₂ : An Organometallic Perspective.

Review 3. Homogeneous and heterogeneous molecular catalysts for electrochemical reduction of carbon dioxide.

4. Exploring the Electrochemistry of Iron Dithiolene and Its Potential for Electrochemical Homogeneous Carbon Dioxide Reduction.

Iron Porphyrin Allows Fast and Selective Electrocatalytic Conversion of CO2 to CO in a Flow Cell.

Review 1. Recent Progress in (Photo-)-Electrochemical Conversion of CO2 With Metal Porphyrinoid-Systems.

Review 2. Transition Metal Complexes as Catalysts for the Electroconversion of CO2 : An Organometallic Perspective.

Review 3. Homogeneous and heterogeneous molecular catalysts for electrochemical reduction of carbon dioxide.

4. Exploring the Electrochemistry of Iron Dithiolene and Its Potential for Electrochemical Homogeneous Carbon Dioxide Reduction.

Iron Porphyrin Allows Fast and Selective Electrocatalytic Conversion of CO₂ to CO in a Flow Cell.

Review 1. Recent Progress in (Photo-)-Electrochemical Conversion of CO₂ With Metal Porphyrinoid-Systems.

Review 2. Transition Metal Complexes as Catalysts for the Electroconversion of CO₂ : An Organometallic Perspective.