Add to ORKGWe report herein the synthesis of CoWO4-based water oxidation catalysts (WOCs) derived from cobalt-based polyoxometalate (CoPOM). CoPOM with a molecular formula of Co4(H2O)2(PW9O34)2]10- is a well-known homogeneous WOC. For its versatile application, however, its integration with a heterogeneous electrode/photoelectrode is critically required. We found that CoPOM can be readily converted to more efficient CoWO4-based catalyst and integrated with a substrate by simple annealing process. According to our results, CoWO4 catalysts can have both amorphous and crystalline phase, depending on the annealing temperature. We found that amorphous CoWO4 formed at a relatively low temperature has much higher catalytic activity than pristine CoPOM and cr...
A series of six exemplary cobalt-polyoxometalate (Co-POM) precatalysts have been examined to determi...
Water splitting is the key step towards artificial photosystems for solar energy conversion and stor...
The key to unlock a renewable, clean, and energy-dense hydrogen fuel lies in designing an efficient ...
Electrochemical and photochemical water splitting has drawn great attentions because it allows produ...
Here we report a novel method to synthesize CoWO4 using tetracobalt-substituted polyoxometalate (Co4...
Highly efficient water-oxidation catalysts (WOCs) were readily prepared through the simple heat trea...
Solar energy has attracted interest for clean hydrogen fuel from abundant water. However, because of...
Water oxidation is the key to efficient conversion of solar energy to chemical fuels in artificial p...
Inspired by natural processes, there is an enormous interest in light-driven water splitting to conv...
Water oxidation is simple but considered one of the most important electrochemical reactions; it can...
Water oxidation is the “bottleneck” of artificial photosynthesis on the way to clean and sustainable...
Efficient water oxidation remains a particular challenge in water splitting that calls for developin...
Artificial photosynthesis is a promising strategy for renewable energy production by converting sunl...
An open-core cobalt polyoxometalate (POM) [(A-alpha-SiW9O34)Co-4(OH)(3)(CH3COO)(3)]Co8-(1) and its i...
A series of six exemplary cobalt-polyoxometalate (Co-POM) precatalysts have been examined to determi...
A series of six exemplary cobalt-polyoxometalate (Co-POM) precatalysts have been examined to determi...
Water splitting is the key step towards artificial photosystems for solar energy conversion and stor...
The key to unlock a renewable, clean, and energy-dense hydrogen fuel lies in designing an efficient ...
Electrochemical and photochemical water splitting has drawn great attentions because it allows produ...
Here we report a novel method to synthesize CoWO4 using tetracobalt-substituted polyoxometalate (Co4...
Highly efficient water-oxidation catalysts (WOCs) were readily prepared through the simple heat trea...
Solar energy has attracted interest for clean hydrogen fuel from abundant water. However, because of...
Water oxidation is the key to efficient conversion of solar energy to chemical fuels in artificial p...
Inspired by natural processes, there is an enormous interest in light-driven water splitting to conv...
Water oxidation is simple but considered one of the most important electrochemical reactions; it can...
Water oxidation is the “bottleneck” of artificial photosynthesis on the way to clean and sustainable...
Efficient water oxidation remains a particular challenge in water splitting that calls for developin...
Artificial photosynthesis is a promising strategy for renewable energy production by converting sunl...
An open-core cobalt polyoxometalate (POM) [(A-alpha-SiW9O34)Co-4(OH)(3)(CH3COO)(3)]Co8-(1) and its i...
A series of six exemplary cobalt-polyoxometalate (Co-POM) precatalysts have been examined to determi...
A series of six exemplary cobalt-polyoxometalate (Co-POM) precatalysts have been examined to determi...
Water splitting is the key step towards artificial photosystems for solar energy conversion and stor...
The key to unlock a renewable, clean, and energy-dense hydrogen fuel lies in designing an efficient ...