Systematic Constructing FeOCl/BiVO4 Hetero‐Interfacial Hybrid Photoanodes for Efficient Photoelectrochemical Water Splitting
Y Chen, X Li, H Yang, Y Huang - Small, 2024 - Wiley Online Library
Abstract Bismuth vanadate (BiVO4), as a promising photoanode for photoelectrochemical
(PEC) water splitting, suffers from poor charge separation efficiency and light absorption …
(PEC) water splitting, suffers from poor charge separation efficiency and light absorption …
Stabilizing BiVO4 Photoanode in Bicarbonate Electrolyte for Efficient Photoelectrocatalytic Alcohol Oxidation
H Gong, S An, W Qin, Y Kuang, D Liu - Molecules, 2024 - mdpi.com
In order to expand the application of bismuth vanadate (BiVO4) to the field of
photoelectrochemistry, researchers have explored the potential of BiVO4 in catalyzing or …
photoelectrochemistry, researchers have explored the potential of BiVO4 in catalyzing or …
Advancing Hematite Photoanodes for Photoelectrochemical Water Splitting: The Impact of g‐C3N4 Supported Ni‐CoP on Photogenerated Hole Dynamics
M Yang, LI Oldham, M Daboczi, Y Baghdadi… - Advanced Energy … - Wiley Online Library
The increasing demand for clean hydrogen necessitates the rapid development of efficient
photoanodes to catalyze the water oxidation half‐reaction effectively. Here a strategy is …
photoanodes to catalyze the water oxidation half‐reaction effectively. Here a strategy is …
Highly Enhanced Photoelectrocatalytic Activity of Nife/Ni/Bivo4 Photoanode by a Facile Photoelectron-Activation Process in Neutral Solution
X Yun, Y Lei, Z Wang, X Bo, Y Ma - Ni/Bivo4 Photoanode by a Facile … - papers.ssrn.com
Photoelectrocatalytic water splitting is a promising approach to convert solar energy to
hydorgen energy. Delicate design of photoanode is crucial for the excellent catalytic activity …
hydorgen energy. Delicate design of photoanode is crucial for the excellent catalytic activity …
[引用][C] Advancing Hematite Photoanodes for Photoelectrochemical Water Splitting: The Impact of gC
M Yang, LI Oldham, M Daboczi, Y Baghdadi, J Cui… - 2024