Embedding laser generated nanocrystals in BiVO4 photoanode for efficient photoelectrochemical water splitting
Addressing the intrinsic charge transport limitation of metal oxides has been of significance
for pursuing viable PEC water splitting photoelectrodes. Growing a photoelectrode with …
for pursuing viable PEC water splitting photoelectrodes. Growing a photoelectrode with …
[HTML][HTML] Facet engineering of semiconductors for boosting photo-charge separation in solar fuel production
Photocatalysis promises green production of chemicals by using the inexhaustible solar
energy, but the low photocatalytic activity of most semiconductors due to charge …
energy, but the low photocatalytic activity of most semiconductors due to charge …
Visible light photoanode material for photoelectrochemical water splitting: a review of bismuth vanadate
Photoelectrochemical (PEC) technology for water splitting has been regarded as one of the
most appealing and environmentally friendly approaches to converting light energy into …
most appealing and environmentally friendly approaches to converting light energy into …
Demonstration of a 50 cm 2 BiVO 4 tandem photoelectrochemical-photovoltaic water splitting device
In this paper, we demonstrate a new benchmark for a large area photoelectrochemical–
photovoltaic (PEC–PV) solar water splitting device with a metal oxide-based top absorber …
photovoltaic (PEC–PV) solar water splitting device with a metal oxide-based top absorber …
A general interfacial-energetics-tuning strategy for enhanced artificial photosynthesis
The demands for cost-effective solar fuels have triggered extensive research in artificial
photosynthesis, yet the efforts in designing high-performance particulate photocatalysts are …
photosynthesis, yet the efforts in designing high-performance particulate photocatalysts are …
Facile growth of AgVO3 nanoparticles on Mo-doped BiVO4 film for enhanced photoelectrochemical water oxidation
L Gao, X Long, S Wei, C Wang, T Wang, F Li… - Chemical Engineering …, 2019 - Elsevier
BiVO 4 is largely restricted by its intrinsic poor electron mobility and sluggish surface
reaction. Aiming at eliminating the deficiency of BiVO 4, we assemble a novel composite …
reaction. Aiming at eliminating the deficiency of BiVO 4, we assemble a novel composite …
Conversion of CO2 to formate using activated carbon fiber-supported g-C3N4-NiCoWO4 photoanode in a microbial electrosynthesis system
Microbial electrosynthesis (MES) integrated with photocatalytic materials is a novel carbon
dioxide (CO 2) utilization technology with considerable potential to mitigate CO 2 emission …
dioxide (CO 2) utilization technology with considerable potential to mitigate CO 2 emission …
Enhanced photocurrent density for photoelectrochemical catalyzing water oxidation using novel W-doped BiVO4 and metal organic framework composites
Doping heteroatoms and decorating co-catalyst are intensively applied to improve
photocatalytic ability of BiVO 4. In this study, it is the first time to design W-doped BiVO 4 …
photocatalytic ability of BiVO 4. In this study, it is the first time to design W-doped BiVO 4 …
Multiple Effects Induced by Mo6+ Doping in BiVO4 Photoanodes
Mo6+ doping increases the photoelectrochemical performance of BiVO4 photoanodes in
water oxidation. Herein, the underlying mechanisms is elucidated through a systematic …
water oxidation. Herein, the underlying mechanisms is elucidated through a systematic …
Efficient solar-to-acetate conversion from CO2 through microbial electrosynthesis coupled with stable photoanode
Integration of microbial electrosynthesis (MES) with renewable energy supply has been
proposed as a novel approach for energy storage and CO 2 transformation into fuels and …
proposed as a novel approach for energy storage and CO 2 transformation into fuels and …