Accelerating water dissociation in bipolar membranes and for electrocatalysis
Oregon Research Institute · University of Oregon · +1 more institution
Abstract
Easing water apart Traditional setups for splitting water into hydrogen and oxygen operate either in acid or in base. A bipolar membrane can potentially enhance efficiency by bridging acidic hydrogen evolution to basic oxygen evolution. Oener et al. undertook a systematic study of how catalysts paired with such a membrane might accelerate the preliminary step of water dissociation into protons and hydroxide ions. Using insights from this study for optimal catalyst integration, they were able to substantially lower the overpotential of a bipolar membrane electrolyzer. Science , this issue p. 1099
Citation impact
- FWCI
- 12.67
- Percentile
- 100%
- References
- 70
Authors
3- SZSebastian Z. OenerCorresponding
Oregon Research Institute, University of Oregon, Oregon Center For Applied Science (United States)
- MJM. J. Foster
Oregon Research Institute, University of Oregon, Oregon Center For Applied Science (United States)
- SWShannon W. BoettcherCorresponding
Oregon Research Institute, University of Oregon, Oregon Center For Applied Science (United States)
Topics & keywords
- Overpotential
- Dissociation (chemistry)
- Electrocatalyst
- Electrolysis of water
- Catalysis
- Hydrogen
- Chemistry
- Self-ionization of water
- Clean water and sanitation