Publication: Ruthenium Oxide Hydrogen Evolution Catalysis on Composite Cuprous Oxide Water-Splitting Photocathodes
Ruthenium Oxide Hydrogen Evolution Catalysis on Composite Cuprous Oxide Water-Splitting Photocathodes
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Tilley, S. D., Schreier, M., Azevedo, J., Stefik, M., & Grätzel, M. (2014). Ruthenium Oxide Hydrogen Evolution Catalysis on Composite Cuprous Oxide Water-Splitting Photocathodes. Advanced Functional Materials, 24, 303–311. https://doi.org/10.1002/adfm.201301106
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Abstract
Photocathodes based on cuprous oxide (Cu2O) are promising materials for large scale and widespread solar fuel generation due to the abundance of copper, suitable bandgap, and favorable band alignments for reducing water and carbon dioxide. A protective overlayer is required to stabilize the Cu2O in aqueous media under illumination, and the interface between this overlayer and the catalyst nanoparticles was previously identified as a key source of instability. Here, the properties of the protective titanium dioxide overlayer of composi
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- Schreier, Marcel
- Azevedo, João
- Stefik, Morgan
- Grätzel, Michael
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Tilley, S. D., Schreier, M., Azevedo, J., Stefik, M., & Grätzel, M. (2014). Ruthenium Oxide Hydrogen Evolution Catalysis on Composite Cuprous Oxide Water-Splitting Photocathodes. Advanced Functional Materials, 24, 303–311. https://doi.org/10.1002/adfm.201301106
