Volume 2, 2024

Reaction microenvironment control in membrane electrode assemblies for CO2 electrolysis

Abstract

CO2 electrolysis is an emerging and promising carbon neutrality technology, but currently suffers from challenging selectivity issues at industrially relevant reaction rates. Selectivity control in CO2 electrolysis relies on the molecular understanding and manipulation of multiple parallel reaction pathways that are equally governed by catalytically active sites and the reaction microenvironments in their vicinity. In this perspective, we summarize and discuss the latest achievements in reaction microenvironment control for active, selective, energy- and carbon-efficient CO2 electrolysis, with particular attention being paid to that in membrane electrode assembly electrolyzers operating at industrial current densities (≥200 mA cm−2). The effects and underlying catalytic mechanisms of reaction microenvironments tailored by functional organic molecules/polymers and reactant feed compositions on the activity and selectivity of CO2 electrolysis are discussed using selected examples. The efforts made to tailor acidic reaction microenvironments by controlling the transport of reactive species for carbon-efficient CO2 electrolysis are also exemplified. Finally, we illustrate current challenges and future opportunities in the mechanistic understanding and rational design of reaction microenvironments for improving CO2 electrolysis performance.

Graphical abstract: Reaction microenvironment control in membrane electrode assemblies for CO2 electrolysis

Article information

Article type
Perspective
Submitted
04 jul 2023
Accepted
13 sep 2023
First published
13 sep 2023
This article is Open Access
Creative Commons BY license

EES. Catal., 2024,2, 220-230

Reaction microenvironment control in membrane electrode assemblies for CO2 electrolysis

C. Yan, D. Gao, J. Velasco-Vélez and G. Wang, EES. Catal., 2024, 2, 220 DOI: 10.1039/D3EY00155E

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