Bifunctionality and Mechanism of Electrodeposited Nickel–Phosphorous Films for Efficient Overall Water Splitting
- 4 December 2015
- journal article
- research article
- Published by Wiley in ChemCatChem
- Vol. 8 (1), 106-112
- https://doi.org/10.1002/cctc.201501150
Abstract
No abstract availableKeywords
Funding Information
- Governor's Energy Leadership Scholars Grant from the Utah Energy Research Triangle
- Utah State University
- Ralph E. Powe Junior Faculty Enhancement Award from Oak Ridge Associated Universities
This publication has 89 references indexed in Scilit:
- Highly active and durable nanostructured molybdenum carbide electrocatalysts for hydrogen productionEnergy & Environmental Science, 2013
- Amorphous Molybdenum Sulfide Catalysts for Electrochemical Hydrogen Production: Insights into the Origin of their Catalytic ActivityACS Catalysis, 2012
- Fe, Co, and Ni ions promote the catalytic activity of amorphous molybdenum sulfide films for hydrogen evolutionChemical Science, 2012
- Amorphous molybdenum sulfide films as catalysts for electrochemical hydrogen production in waterChemical Science, 2011
- Synthetic manganese–calcium oxides mimic the water-oxidizing complex of photosynthesis functionally and structurallyEnergy & Environmental Science, 2011
- Mechanistic Studies of the Oxygen Evolution Reaction by a Cobalt-Phosphate Catalyst at Neutral pHJournal of the American Chemical Society, 2010
- Nickel-borate oxygen-evolving catalyst that functions under benign conditionsProceedings of the National Academy of Sciences, 2010
- Powering the planet with solar fuelNature Chemistry, 2009
- In Situ Formation of an Oxygen-Evolving Catalyst in Neutral Water Containing Phosphate and Co 2+Science, 2008
- Examination of the Bonding in Binary Transition-Metal Monophosphides MP (M = Cr, Mn, Fe, Co) by X-Ray Photoelectron SpectroscopyInorganic Chemistry, 2005