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Design principles for water dissociation catalysts in high-performance bipolar membranes

Lihaokun Chen, Qiucheng Xu, Sebastian Z. Oener, Kevin Fabrizio and Shannon W. Boettcher ()
Additional contact information
Lihaokun Chen: University of Oregon
Qiucheng Xu: University of Oregon
Sebastian Z. Oener: University of Oregon
Kevin Fabrizio: University of Oregon
Shannon W. Boettcher: University of Oregon

Nature Communications, 2022, vol. 13, issue 1, 1-10

Abstract: Abstract Water dissociation (WD, H2O → H+ + OH−) is the core process in bipolar membranes (BPMs) that limits energy efficiency. Both electric-field and catalytic effects have been invoked to describe WD, but the interplay of the two and the underlying design principles for WD catalysts remain unclear. Using precise layers of metal-oxide nanoparticles, membrane-electrolyzer platforms, materials characterization, and impedance analysis, we illustrate the role of electronic conductivity in modulating the performance of WD catalysts in the BPM junction through screening and focusing the interfacial electric field and thus electrochemical potential gradients. In contrast, the ionic conductivity of the same layer is not a significant factor in limiting performance. BPM water electrolyzers, optimized via these findings, use ~30-nm-diameter anatase TiO2 as an earth-abundant WD catalyst, and generate O2 and H2 at 500 mA cm−2 with a record-low total cell voltage below 2 V. These advanced BPMs might accelerate deployment of new electrodialysis, carbon-capture, and carbon-utilization technology.

Date: 2022
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (4)

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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-31429-7

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DOI: 10.1038/s41467-022-31429-7

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