Journal
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
Volume 15, Issue 24, Pages 9775-9782Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c3cp51053k
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Funding
- Basic Science Research Program [NRF-20090081018, NRF-2009-0083540]
- Priority Research Center Program [NRF-2011-0031392]
- World Class University Program [R31-10029]
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In this paper, we report the porosity and heterojunction effects of hematite (alpha-Fe2O3) on the photoelectrochemical (PEC) water splitting properties. The worm-like mesoporous hematite thin films (MHFs) with a pore size of similar to 9 nm and a wall thickness of similar to 5 nm were successfully obtained through the self-assembly process. MHFs formed on FTO showed much better PEC properties than those of nonporous hematite thin films (NP-HF) owing to the suppression of charge recombination. The PEC data of MHFs under front and back illumination conditions indicated that the porous structure allows the diffusion of electrolyte deep inside the MHF increasing the number of holes to be utilized in the water oxidation reaction. A heterojunction structure was formed by introducing a thin layer of SnO2 (similar to 15 nm in thickness) between the MHF and FTO for a dramatically enhanced PEC response, which is attributed to the efficient electron transfer. Our spectroscopic and electrochemical data show that the SnO2 layer functions as an efficient electron transmitter, but does not affect the recombination kinetics of MHFs.
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