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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.
Affiliation
  • Xie K; Department of Electrical and Computer Engineering, University of Toronto, 10 King's College Road, Toronto, ON, M5S 3G4, Canada.
  • Miao RK; Department of Mechanical and Industrial Engineering, University of Toronto, 5 King's College Road, Toronto, ON, M5S 3G8, Canada.
  • Ozden A; Department of Mechanical and Industrial Engineering, University of Toronto, 5 King's College Road, Toronto, ON, M5S 3G8, Canada.
  • Liu S; Department of Mechanical and Industrial Engineering, University of Toronto, 5 King's College Road, Toronto, ON, M5S 3G8, Canada.
  • Chen Z; Department of Electrical and Computer Engineering, University of Toronto, 10 King's College Road, Toronto, ON, M5S 3G4, Canada.
  • Dinh CT; Department of Chemical Engineering, Queen's University, 19 Division Street, Kingston, Kingston, ON, K7L 3N6, Canada.
  • Huang JE; Department of Electrical and Computer Engineering, University of Toronto, 10 King's College Road, Toronto, ON, M5S 3G4, Canada.
  • Xu Q; Department of Chemistry and Biochemistry, University of Oregon, Eugene, OR, 97403, USA.
  • Gabardo CM; Department of Mechanical and Industrial Engineering, University of Toronto, 5 King's College Road, Toronto, ON, M5S 3G8, Canada.
  • Lee G; Department of Electrical and Computer Engineering, University of Toronto, 10 King's College Road, Toronto, ON, M5S 3G4, Canada.
  • Edwards JP; Department of Mechanical and Industrial Engineering, University of Toronto, 5 King's College Road, Toronto, ON, M5S 3G8, Canada.
  • O'Brien CP; Department of Mechanical and Industrial Engineering, University of Toronto, 5 King's College Road, Toronto, ON, M5S 3G8, Canada.
  • Boettcher SW; Department of Chemistry and Biochemistry, University of Oregon, Eugene, OR, 97403, USA.
  • Sinton D; Department of Mechanical and Industrial Engineering, University of Toronto, 5 King's College Road, Toronto, ON, M5S 3G8, Canada. sinton@mie.utoronto.ca.
  • Sargent EH; Department of Electrical and Computer Engineering, University of Toronto, 10 King's College Road, Toronto, ON, M5S 3G4, Canada. ted.sargent@utoronto.ca.
Nat Commun ; 13(1): 3609, 2022 Jun 24.
Article in En | MEDLINE | ID: mdl-35750665
ABSTRACT
In alkaline and neutral MEA CO2 electrolyzers, CO2 rapidly converts to (bi)carbonate, imposing a significant energy penalty arising from separating CO2 from the anode gas outlets. Here we report a CO2 electrolyzer uses a bipolar membrane (BPM) to convert (bi)carbonate back to CO2, preventing crossover; and that surpasses the single-pass utilization (SPU) limit (25% for multi-carbon products, C2+) suffered by previous neutral-media electrolyzers. We employ a stationary unbuffered catholyte layer between BPM and cathode to promote C2+ products while ensuring that (bi)carbonate is converted back, in situ, to CO2 near the cathode. We develop a model that enables the design of the catholyte layer, finding that limiting the diffusion path length of reverted CO2 to ~10 µm balances the CO2 diffusion flux with the regeneration rate. We report a single-pass CO2 utilization of 78%, which lowers the energy associated with downstream separation of CO2 by 10× compared with past systems.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Type of study: Prognostic_studies Language: En Journal: Nat Commun Journal subject: BIOLOGIA / CIENCIA Year: 2022 Document type: Article Affiliation country: Canadá
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Full text: 1 Collection: 01-internacional Database: MEDLINE Type of study: Prognostic_studies Language: En Journal: Nat Commun Journal subject: BIOLOGIA / CIENCIA Year: 2022 Document type: Article Affiliation country: Canadá