Add to ORKGAbstract Some strategies toward the realization of molecular control of photo-induced charge-transfer processes at nanocrystalline semiconductor interfaces are discussed. Supramolecular compounds that efficiently absorb light, promote interfacial electron transfer, and feature additional functions such as intramolecular electron transfer when bound to semiconductor surfaces are of specific interest. Tuning the energetic position of the semiconductor conduction band relative to molecular excited state reduction potentials are also discussed. When utilized as components in photonic devices, these interfaces allow the conversion of light into an electrical response to be controlled at the molecular-level
Heterodyad systems composed of a redox photosensitizer adsorbed on the surface of a wide band gap se...
Semiconductor quantum dots are inorganic nanocrystals which, because of their unique size-dependent ...
Highly structured nanomaterials offer promise to revolutionize numerous areas of energy conversion t...
This review describes the work which has mainly been developed in our laboratory on photoelectrochem...
Some strategies for the design of mononuclear sensitizers and of artificial supramolecular systems u...
The kinetic study of interfacial electron transfer in sensitized nanocrystalline semiconductor is es...
Molecular control of energy transfer is an attractive proposition because it allows chemists to synt...
Nanoscale confinement extends the desirable properties of inorganic semiconductors for electronics a...
Semiconductor/liquid contacts provide very efficient systems for converting sunlight into electrical...
Photoinduced charge transfer processes involving molecules adsorbed at interfaces are a fascinating ...
Charge transfer processes across hybrid interfaces, such as formed by the connection of molecules to...
Control of the nanoscale interface leads to efficient electrochemical reactions and unique molecular...
Colloidal semiconductor nanocrystals possess unique properties that are unmatched by other chromopho...
Abstract: Reversible electronic transduction of photonic processes occurring on electrodes is the co...
A review with 156 refs. on interfacial electron transfer reactions in colloidal semiconductor solns....
Heterodyad systems composed of a redox photosensitizer adsorbed on the surface of a wide band gap se...
Semiconductor quantum dots are inorganic nanocrystals which, because of their unique size-dependent ...
Highly structured nanomaterials offer promise to revolutionize numerous areas of energy conversion t...
This review describes the work which has mainly been developed in our laboratory on photoelectrochem...
Some strategies for the design of mononuclear sensitizers and of artificial supramolecular systems u...
The kinetic study of interfacial electron transfer in sensitized nanocrystalline semiconductor is es...
Molecular control of energy transfer is an attractive proposition because it allows chemists to synt...
Nanoscale confinement extends the desirable properties of inorganic semiconductors for electronics a...
Semiconductor/liquid contacts provide very efficient systems for converting sunlight into electrical...
Photoinduced charge transfer processes involving molecules adsorbed at interfaces are a fascinating ...
Charge transfer processes across hybrid interfaces, such as formed by the connection of molecules to...
Control of the nanoscale interface leads to efficient electrochemical reactions and unique molecular...
Colloidal semiconductor nanocrystals possess unique properties that are unmatched by other chromopho...
Abstract: Reversible electronic transduction of photonic processes occurring on electrodes is the co...
A review with 156 refs. on interfacial electron transfer reactions in colloidal semiconductor solns....
Heterodyad systems composed of a redox photosensitizer adsorbed on the surface of a wide band gap se...
Semiconductor quantum dots are inorganic nanocrystals which, because of their unique size-dependent ...
Highly structured nanomaterials offer promise to revolutionize numerous areas of energy conversion t...