Add to ORKGTowards the bigger picture of developing modular solns. for photoelectrochem. water splitting, catalytic proton redn. mediated by cobalt bis(iminopyridine) complexes has been explored in buffered aq. media over a broad range of pH conditions. The extremely rapid rates of electrocatalytic hydrogen evolution exhibited by firstgeneration catalysts will be discussed in conjunction with the performance of second-generation electrocatalysts. Details of electrochem. and photochem. mechanistic studies, kinetic competency, and the effects of reaction medium on H_2 evolution will also be presented
Hydrogen generation through catalytic water splitting is a promising strategy for solar energy stora...
To explore the structure–function relationships of cobalt complexes in the catalytic hydrogen evolut...
AbstractThe generation of H2 from protons and electrons by complexes of cobalt has an extensive hist...
Towards the bigger picture of developing modular solns. for photoelectrochem. water splitting, catal...
A series of cobalt complexes with macrocyclic imine ligands such as difluoroboryldiglyxomime and [14...
A mononuclear cobalt complex supported by a new type of pentadentate ligand catalyzed the evolution ...
The reductive part of artificial photosynthesis, the reduction of protons into H2, is a two electron...
In order to meet the ever-increasing demand for energy, a worldwide transition away from fossil fuel...
International audienceThe future of energy supply depends on innovative breakthroughs regarding the ...
The PhD project focussed on the application of a cobalt tetraazamacrocyclic complex, in the literatu...
Natural photosynthesis uses sunlight to drive the conversion of energy-poor mols. (H_2O, CO_2) to en...
Cobalt complexes containing equatorial tetraazamacrocyclic ligands are active catalysts for the hydr...
Our NSF funded CCI Solar Fuels Program involves many experimentalists and theorists in an interdisci...
A series of cobalt and nickel complexes with macrocyclic imine ligands such as difluoroboryldiglyxom...
Solar-driven hydrogen evolution from water has emerged as an important methodology for the storage o...
Hydrogen generation through catalytic water splitting is a promising strategy for solar energy stora...
To explore the structure–function relationships of cobalt complexes in the catalytic hydrogen evolut...
AbstractThe generation of H2 from protons and electrons by complexes of cobalt has an extensive hist...
Towards the bigger picture of developing modular solns. for photoelectrochem. water splitting, catal...
A series of cobalt complexes with macrocyclic imine ligands such as difluoroboryldiglyxomime and [14...
A mononuclear cobalt complex supported by a new type of pentadentate ligand catalyzed the evolution ...
The reductive part of artificial photosynthesis, the reduction of protons into H2, is a two electron...
In order to meet the ever-increasing demand for energy, a worldwide transition away from fossil fuel...
International audienceThe future of energy supply depends on innovative breakthroughs regarding the ...
The PhD project focussed on the application of a cobalt tetraazamacrocyclic complex, in the literatu...
Natural photosynthesis uses sunlight to drive the conversion of energy-poor mols. (H_2O, CO_2) to en...
Cobalt complexes containing equatorial tetraazamacrocyclic ligands are active catalysts for the hydr...
Our NSF funded CCI Solar Fuels Program involves many experimentalists and theorists in an interdisci...
A series of cobalt and nickel complexes with macrocyclic imine ligands such as difluoroboryldiglyxom...
Solar-driven hydrogen evolution from water has emerged as an important methodology for the storage o...
Hydrogen generation through catalytic water splitting is a promising strategy for solar energy stora...
To explore the structure–function relationships of cobalt complexes in the catalytic hydrogen evolut...
AbstractThe generation of H2 from protons and electrons by complexes of cobalt has an extensive hist...