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Influence of Electrolyte on the Electrochemical Reduction of Carbon Dioxide Using Boron‐Doped Diamond Electrodes
Author(s) -
Tomisaki Mai,
Natsui Keisuke,
Ikemiya Norihito,
Nakata Kazuya,
Einaga Yasuaki
Publication year - 2018
Publication title -
chemistryselect
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.437
H-Index - 34
ISSN - 2365-6549
DOI - 10.1002/slct.201801546
Subject(s) - formic acid , inorganic chemistry , faraday efficiency , electrolyte , electrochemistry , chemistry , electrode , electrochemical reduction of carbon dioxide , selectivity , aqueous solution , catalysis , carbon monoxide , organic chemistry
Abstract Electrochemical reduction of CO 2 to useful compounds have been actively investigated. The faradaic efficiency and selectivity for products of CO 2 reduction depend on some factors, such as electrode materials and electrolytes. Recently, boron‐doped diamond (BDD) was found to be a promising electrode material for production of formic acid by CO 2 reduction, but the influence of electrolytes has not been sufficiently elucidated. Here, we studied the impact of various cations and anions on CO 2 reduction using BDD electrodes. The faradaic efficiency for producing formic acid became higher by using larger alkali metal cations, because these hydrated cations would keep the pH near the cathode suitable for CO 2 reduction by their buffer effect. Moreover, formic acid was efficiently obtained by using specifically‐adsorbed anions such as halides and sulfate. Finally, we achieved the maximum faradaic efficiency for producing formic acid as high as 95% in RbBr aqueous solution.