Journal
SURFACE & COATINGS TECHNOLOGY
Volume 421, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.surfcoat.2021.127362
Keywords
Photoelectrochemical water oxidation; Hematite photoanodes; NiFeCo co-catalyst; Dense films; Porous films; Electron beam evaporation
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The study evaluates the effect of NiFeCo co-catalyst on the water oxidation performance of hematite photoanodes, finding that the optimized co-catalyst thickness is influenced by the hematite morphology, and both dense and porous hematite show enhanced performance under the co-catalytic effect.
Hematite (alpha-Fe2O3) is a promising candidate for water oxidation applications due to its abundance in the earth crust and its suitable bandgap. However, hematite performance is severely limited by electron-hole recombination at its interface with the electrolyte; something that can be addressed using electmcatalysts. In this report, we evaluate the influence of a ternary NiFeCo co-catalyst to enhance the water oxidation performance of hematite photoanodes. Thus, NiFeCo co-catalyst is optimized for hematite thin films with i) dense and ii) porous (nano-rod) morphologies. Both hematite films are prepared using electron beam evaporation method followed by an annealing step and NiFeCo co-catalyst is processed using electrodeposition. The results demonstrate optimal thickness of NiFeCo co-catalyst is thinner for porous hematite layers relative to the dense ones indicating that the optimal condition of the co-catalyst is affected by hematite morphology. The optimized dense NiCoFe/hematite photoanode shows nearly than 2.8-fold enhancement relative to the pristine hematite photoanode, whereas the optimized porous NiCoFe/hematite photoanode shows 2.2-fold enhancements. Transient photocurrent measurements confirm that NiFeCo facilitates hole injection from hematite into the electrolyte. These findings have important implications for optimizing electrocatalysts for photoelectmchemical water splitting photoanodes and taking into account the effect of surface morphology.
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