Journal
JOURNAL OF CATALYSIS
Volume 365, Issue -, Pages 29-35Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcat.2018.06.018
Keywords
Artificial photosynthesis; Water oxidation; Oxygen evolution reaction; Acidic electrolyte; Iron oxide
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Funding
- K. & A. Wallenbergs Foundation (Artificial Leaf Project Umea)
- Umea Core Facility for Electron Microscopy (UCEM)
- XPS Platform and Trace Analysis Platform at the Chemical Biological Centre (KBC) at Umea University
- Rontgenlab at the Department of Chemistry-Angstrom at Uppsala University
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Stable and efficient oxygen evolution reaction (OER) catalysts for the oxidation of water to dioxygen in highly acidic media are currently limited to expensive noble metal (Ir and Ru) oxides since presently known OER catalysts made of inexpensive earth-abundant materials generally suffer anodic corrosion at low pH. In this study, we report that a mixed-polymorph film comprising maghemite and hematite, prepared using spray pyrolysis deposition followed by low-temperature annealing, showed a sustained OER rate (>24 h) corresponding to a current density of 10 mA cm(-2) at an initial overpotential of 650 mV, with a Tafel slope of only 56 mV dec(-1) and near-100% Faradaic efficiency in 0.5 M H2SO4 (pH 0.3). This performance is remarkable, since iron (III) oxide films comprising only maghemite were found to exhibit a comparable intrinsic activity, but considerably lower stability for OER, while films of pure hematite were OER-inactive. These results are explained by the differences in the polymorph crystal structures, which cause different electrical conductivity and surface interactions with water molecules and protons. Our findings not only reveal the potential of iron (III) oxide as acid-stable OER catalyst, but also highlight the important yet hitherto largely unexplored effect of crystal polymorphism on electrocatalytic OER performance. (C) 2018 Elsevier Inc. All rights reserved.
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