Preprint Article Version 1 Preserved in Portico This version is not peer-reviewed

A Bibliometric Analysis of Research on Membrane Coated Electrodes in the 2001-2019 Period: Potential Application to CO2 Capture and Utilization

Version 1 : Received: 14 September 2020 / Approved: 15 September 2020 / Online: 15 September 2020 (04:45:17 CEST)

How to cite: Casado-Coterillo, C.; Marcos-Madrazo, A.; Garea, A.; Irabien, A. A Bibliometric Analysis of Research on Membrane Coated Electrodes in the 2001-2019 Period: Potential Application to CO2 Capture and Utilization. Preprints 2020, 2020090325 (doi: 10.20944/preprints202009.0325.v1). Casado-Coterillo, C.; Marcos-Madrazo, A.; Garea, A.; Irabien, A. A Bibliometric Analysis of Research on Membrane Coated Electrodes in the 2001-2019 Period: Potential Application to CO2 Capture and Utilization. Preprints 2020, 2020090325 (doi: 10.20944/preprints202009.0325.v1).

Abstract

The chemistry and electrochemistry basic fields have been active since the last two decades of the past century studying how surface modification of electrodes by coating with conductive films enhances their activity and performance. In the light of the development of alternative sustainable ways of energy storage and carbon dioxide conversion by electrochemical processes, these research studies have jumped in the 21st century to more applied fields such as chemical engineering, energy and environmental science and engineering. The huge amount of literature on experimental works dealing with the development of CO2 electroreduction processes addresses electrocatalyst development. Membranes can help understanding and controlling the mass transport limitations of current electrodes and reactors designs. The present bibliometric review addresses the papers published in the 21st century regarding membrane coated electrodes and electrocatalysts to enhance electrochemical reactor performance and viability with a special focus on the urgent issue of carbon dioxide capture and utilization.

Subject Areas

Keywords; CO2; conversion; bibliometrics; electrode design; CO2RR; membrane; flow cell

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