Add to ORKGLight-driven catalytic three component systems for the reduction of protons, consisting of a cyclodextrin-appended iridium complex as photosensitizer, a viologen-based electron relay, and cyclodextrin-modified platinum nanoparticles as the catalyst, were found to be capable of producing molecular hydrogen effectively in water, using a sacrificial electron donor. The modular approach introduced in this study allows the generation of several functional photo-active systems by self-assembly from a limited number of building blocks. We established that systems with polypyridine iridium complexes of general formula [Ir(ppy)2(pytl-R)]Cl (ppy, 2-phenylpyridine; pytl, 2-(1-substituted-1H-1,2,3-triazol-4-yl)pyridine) as photosensitizers are active i...
Artificial photosynthesis, i.e. conversion of solar energy into fuels, is considered as an attractiv...
While its main current use is that of a feedstock in the chemical and petrochemical industry, molecu...
Efficient production of solar fuels is an imperative for meeting future fossil-fuel-free energy dema...
Light-driven catalytic three component systems for the reduction of protons, consisting of a cyclode...
The light-driven reduction of protons for the production of molecular hydrogen in multicomponent sys...
Thesis (Ph. D.)--University of Rochester. Dept. of Chemistry, 2009.This thesis employs Pt(II) terpyr...
The research focussed on fundamental problems in the conversion of light to stored chemical energy. ...
Homogeneous aqueous solutions of photocatalytic ensembles, consisting of [Ru(bpy)3]2+ as a photosens...
Two new cyclometalated Ir(III) diimine complexes were used as photosensitizers for homogeneous hydro...
The development of multicomponent molecular systems for the photocatalytic reduction of water to hyd...
A new catalytic system has been developed for hydrogen production from various monosaccharides, main...
Following bio-inspired guidelines, solar-powered water oxidation can be exploited for hydrogen gener...
Production of hydrogen from light-driven water splitting, photoelectrochemical hydrogen evolution fo...
Traditional dye sensitized photo-electrochemical cells (DSPECs) rely on a multicomponent photo-redox...
Hydrogen evolution from water induced by visible light has been investigated. The system contains tr...
Artificial photosynthesis, i.e. conversion of solar energy into fuels, is considered as an attractiv...
While its main current use is that of a feedstock in the chemical and petrochemical industry, molecu...
Efficient production of solar fuels is an imperative for meeting future fossil-fuel-free energy dema...
Light-driven catalytic three component systems for the reduction of protons, consisting of a cyclode...
The light-driven reduction of protons for the production of molecular hydrogen in multicomponent sys...
Thesis (Ph. D.)--University of Rochester. Dept. of Chemistry, 2009.This thesis employs Pt(II) terpyr...
The research focussed on fundamental problems in the conversion of light to stored chemical energy. ...
Homogeneous aqueous solutions of photocatalytic ensembles, consisting of [Ru(bpy)3]2+ as a photosens...
Two new cyclometalated Ir(III) diimine complexes were used as photosensitizers for homogeneous hydro...
The development of multicomponent molecular systems for the photocatalytic reduction of water to hyd...
A new catalytic system has been developed for hydrogen production from various monosaccharides, main...
Following bio-inspired guidelines, solar-powered water oxidation can be exploited for hydrogen gener...
Production of hydrogen from light-driven water splitting, photoelectrochemical hydrogen evolution fo...
Traditional dye sensitized photo-electrochemical cells (DSPECs) rely on a multicomponent photo-redox...
Hydrogen evolution from water induced by visible light has been investigated. The system contains tr...
Artificial photosynthesis, i.e. conversion of solar energy into fuels, is considered as an attractiv...
While its main current use is that of a feedstock in the chemical and petrochemical industry, molecu...
Efficient production of solar fuels is an imperative for meeting future fossil-fuel-free energy dema...