Adapted from Chen, L. et al. p - Type Transparent Conducting Oxide / n - Type Semiconductor Heterojunctions for Efficient and Stable
Solar Water Oxidation.
Not exact matches
Decoupling Hydrogen Production and
Water Oxidation in a Hybrid
Solar - Driven Vanadium Redox Cell Supported By a Bipolar Membrane with Earth - Abundant Catalysts Chengxiang Xiang
Bottom:
Solar driven
water oxidation performance of 25 mA · cm − 2 at 1.23 V vs. RHE is among the highest reported for a Si - based photoanode; inset shows stable operation for at least 100 hours.
Unfortunately, the rate of the
water oxidation reaction is very slow, which limits the rate of the overall reaction and the efficiency of the
solar - to - hydrogen conversion.
Stable
solar - driven
oxidation of
water by semiconducting photoanodes protected by transparent catalytic nickel oxide films.
The Molecular Catalysis Project involves directed discovery of homogeneous catalysts for the key reactions involved in
solar - fuel generation:
oxidation of
water to oxygen, reduction of
water to hydrogen, and reduction of carbon dioxide to carbon - based liquid fuels and selective intermediates.