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Dinuclear metal synergistic catalysis for energy conversion
DC Zhong, YN Gong, C Zhang, TB Lu - Chemical Society Reviews, 2023 - pubs.rsc.org
Catalysts featuring dinuclear metal sites are regarded as superior systems compared with
their counterparts with mononuclear metal sites. The dinuclear metal sites in catalysts with …
their counterparts with mononuclear metal sites. The dinuclear metal sites in catalysts with …
Artificial photosynthesis: opportunities and challenges of molecular catalysts
Molecular catalysis plays an essential role in both natural and artificial photosynthesis (AP).
However, the field of molecular catalysis for AP has gradually declined in recent years …
However, the field of molecular catalysis for AP has gradually declined in recent years …
Polymer photoelectrodes for solar fuel production: progress and challenges
Converting solar energy to fuels has attracted substantial interest over the past decades
because it has the potential to sustainably meet the increasing global energy demand …
because it has the potential to sustainably meet the increasing global energy demand …
Photoanodes based on TiO 2 and α-Fe 2 O 3 for solar water splitting–superior role of 1D nanoarchitectures and of combined heterostructures
Solar driven photoelectrochemical water splitting (PEC-WS) using semiconductor
photoelectrodes represents a promising approach for a sustainable and environmentally …
photoelectrodes represents a promising approach for a sustainable and environmentally …
The development of molecular water oxidation catalysts
There is an urgent need to transition from fossil fuels to solar fuels—not only to lower CO2
emissions that cause global warming but also to ration fossil resources. Splitting H2O with …
emissions that cause global warming but also to ration fossil resources. Splitting H2O with …
Intramolecular proton transfer boosts water oxidation catalyzed by a Ru complex
We introduce a new family of complexes with the general formula [Ru n (tda)(py) 2] m+(n= 2,
m= 0, 1; n= 3, m= 1, 2+; n= 4, m= 2, 3 2+), with tda2–being [2, 2′: 6′, 2 ″-terpyridine]-6, 6 …
m= 0, 1; n= 3, m= 1, 2+; n= 4, m= 2, 3 2+), with tda2–being [2, 2′: 6′, 2 ″-terpyridine]-6, 6 …