TY - JOUR
AU - Lan Zhou
AU - Qimin Yan
AU - Jie Yu
AU - Ryan J. R Jones
AU - Natalie Becerra-Stasiewicz
AU - Santosh K Suram
AU - Aniketa Shinde
AU - Dan Guevarra
AU - Jeffrey B Neaton
AU - Kristin A Persson
AU - John M Gregoire
AB - <p>Deployment of solar fuels technology requires photoanodes with long term stability, which can be accomplished using light absorbers that self-passivate under operational conditions. Several copper vanadates have been recently reported as promising photoanode materials, and their stability and self-passivation is demonstrated through a combination of Pourbaix calculations and combinatorial experimentation.</p>
BT - Physical Chemistry Chemical Physics
DA - 03/2016
DO - 10.1039/C6CP00473C
IS - 14
LA - eng
N2 - <p>Deployment of solar fuels technology requires photoanodes with long term stability, which can be accomplished using light absorbers that self-passivate under operational conditions. Several copper vanadates have been recently reported as promising photoanode materials, and their stability and self-passivation is demonstrated through a combination of Pourbaix calculations and combinatorial experimentation.</p>
PY - 2016
SP - 9349 
EP -  9352
ST - Phys. Chem. Chem. Phys.
T2 - Physical Chemistry Chemical Physics
TI - Stability and self-passivation of copper vanadate photoanodes under chemical, electrochemical, and photoelectrochemical operation
VL - 18
SN - 1463-9076
ER -