Bipolar membrane electrolyzers enable high single-pass CO2 electroreduction to multicarbon products

Xie, Ke; Miao, Rui Kai; Ozden, Adnan; Liu, Shijie; Chen, Zhu; Dinh, Cao‐Thang; Huang, Jianan Erick; Xu, Qiucheng; Gabardo, Christine M.; Lee, Geonhui; Edwards, Jonathan P.; O’Brien, Colin P.; Boettcher, Shannon W.; Sinton, David; Sargent, Edward H.

doi:10.1038/s41467-022-31295-3

articleNature CommunicationsJun 24, 2022GOLD OA

Bipolar membrane electrolyzers enable high single-pass CO2 electroreduction to multicarbon products

KXKe Xie RKRui Kai Miao AOAdnan Ozden SLShijie Liu ZCZhu Chen

University of Toronto · Queen's University · +1 more institution

PubMed

Indexed incrossrefdoajpubmed

Abstract

Abstract In alkaline and neutral MEA CO 2 electrolyzers, CO 2 rapidly converts to (bi)carbonate, imposing a significant energy penalty arising from separating CO 2 from the anode gas outlets. Here we report a CO 2 electrolyzer uses a bipolar membrane (BPM) to convert (bi)carbonate back to CO 2 , preventing crossover; and that surpasses the single-pass utilization (SPU) limit (25% for multi-carbon products, C 2+ ) suffered by previous neutral-media electrolyzers. We employ a stationary unbuffered catholyte layer between BPM and cathode to promote C 2+ products while ensuring that (bi)carbonate is converted back, in situ, to CO 2 near the cathode. We develop a model that enables the design of the catholyte…

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Topics & keywords

Topics

Keywords

Cathode
Anode
Electrolysis
Carbonate
Chemical engineering
Diffusion
Carbon dioxide
Chemistry

UN Sustainable Development Goals

Affordable and clean energy

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