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Literature DB >> 24134536

Electrochemistry of acids on platinum. Application to the reduction of carbon dioxide in the presence of pyridinium ion in water.

Cyrille Costentin¹, Juan Carlos Canales, Baptiste Haddou, Jean-Michel Savéant.

Abstract

A detailed cyclic voltammetric investigation of the reduction of moderately weak acids on platinum reveals that they are reduced in two steps: one involving the hydrated protons initially present at equilibrium and the second the reduction of the acid through its prior conversion into hydrated protons. The reduction of pyridinium ions (protonated pyridine) follows this reaction scheme as does any other acid of similar pK (e.g., acetic acid). Rather than being catalytically reduced, CO2 plays a similar role through its prior conversion to carbonic acid. No trace of methanol or formate could be detected upon preparative-scale electrolysis of CO2 on the same electrode in the presence of pyridinium ions.

Entities: Chemical

Year: 2013 PMID： 24134536 DOI： 10.1021/ja407988w

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

5 in total

1. Electrochemistry as a surrogate for protein phosphorylation: voltage-controlled assembly of reflectin A1.

Authors: Sheng-Ping Liang; Robert Levenson; Brandon Malady; Michael J Gordon; Daniel E Morse; Lior Sepunaru
Journal: J R Soc Interface Date: 2020-12-02 Impact factor: 4.118

2. CO₂ Electrolysis via Surface-Engineering Electrografted Pyridines on Silver Catalysts.

Authors: Maryam Abdinejad; Erdem Irtem; Amirhossein Farzi; Mark Sassenburg; Siddhartha Subramanian; Hugo-Pieter Iglesias van Montfort; Davide Ripepi; Mengran Li; Joost Middelkoop; Ali Seifitokaldani; Thomas Burdyny
Journal: ACS Catal Date: 2022-06-17 Impact factor: 13.700

Electrochemistry of acids on platinum. Application to the reduction of carbon dioxide in the presence of pyridinium ion in water.

1. Electrochemistry as a surrogate for protein phosphorylation: voltage-controlled assembly of reflectin A1.

2. CO₂ Electrolysis via Surface-Engineering Electrografted Pyridines on Silver Catalysts.

3. Inhibited proton transfer enhances Au-catalyzed CO2-to-fuels selectivity.

Review 4. Organic, Organometallic and Bioorganic Catalysts for Electrochemical Reduction of CO₂.

5. Very highly efficient reduction of CO₂ to CH₄ using metal-free N-doped carbon electrodes.

Electrochemistry of acids on platinum. Application to the reduction of carbon dioxide in the presence of pyridinium ion in water.

1. Electrochemistry as a surrogate for protein phosphorylation: voltage-controlled assembly of reflectin A1.

2. CO2 Electrolysis via Surface-Engineering Electrografted Pyridines on Silver Catalysts.

3. Inhibited proton transfer enhances Au-catalyzed CO2-to-fuels selectivity.

Review 4. Organic, Organometallic and Bioorganic Catalysts for Electrochemical Reduction of CO2.

5. Very highly efficient reduction of CO2 to CH4 using metal-free N-doped carbon electrodes.

2. CO₂ Electrolysis via Surface-Engineering Electrografted Pyridines on Silver Catalysts.

Review 4. Organic, Organometallic and Bioorganic Catalysts for Electrochemical Reduction of CO₂.

5. Very highly efficient reduction of CO₂ to CH₄ using metal-free N-doped carbon electrodes.