Enhancing Majority Carrier Transport in WO3 Water Oxidation Photoanode via Electrochemical Doping
- Resource Type
- Article
- Authors
- Zhao, Jing; Olide, Everardo; Osterloh, Frank E.
- Source
- Journal of the Electrochemical Society; January 2015, Vol. 162 Issue: 1 pH65-H71, 7p
- Subject
- Language
- ISSN
- 00134651; 19457111
Here we report an electrochemical reduction-induced photocurrent enhancement up to an order of magnitude for monoclinic tungsten trioxide (WO3) particulate photoanodes. Electrochemical impedance and photoelectrochemical measurements suggest that the improved performance is attributed to the increase in majority carrier concentration (from 1.5 x 1018 to 2.5 x 1021 cm[?]3). This results in higher conductivity and improved electron transport. Minority carrier extraction can be increased by reducing the WO3 particle size from 200 nm to 50 and 30 nm. The larger solid-liquid interface area promotes the water oxidation rate. By balancing electron/hole extraction with photon absorption in an optimized 30 nm WO3 particulate electrode, a record water oxidation photocurrent of 3.8 mA/cm2, under +1.36 V (vs. RHE) applied bias in 0.1 M Na2SO4 solution at pH = 3.5 is achieved with 50 mW/cm2 unfiltered Xe illumination.