Add to ORKGExcited electronic states in semiconductors and metals have the potential to alter the rate and selectivity of mol. redn. and oxidn. reactions in photocatalysis. Doing so requires an accurate description and understanding of resonant optical absorption, excited carrier generation, relaxation and interfacial charge transfer processes, so as to understand the prospects for directing catalytic processes with optically generated excited carriers. Advances in theory and simulation of excited state carrier generation and transport processes will be discussed, as well as new exptl. developments in optical design of resonant photocatalysts and photoelectrodes fuel solar fuel generators
The implementation of solar fuel generation as a clean, terawatt-scale energy source is critically d...
Photochemical energy conversion into solar fuel involves steps of light absorption, charge separatio...
Plasmonic metal nanostructures have been incorporated into semiconductors to enhance the solar-light...
Excited electronic states in semiconductors and metals have the potential to alter the rate and sele...
The development of visible light-responsive photocatalysts is needed for effective use of light ener...
Photocatalysis, in its broader meaning, indicates catalytic processes initiated by light. The term i...
Solar energy represents a promising renewable energy source. While photovoltaic technologies have be...
Increasing demand for energy and environmental degradation are the most serious problems facing the ...
Photocatalysis over semiconductors [1-4] is based on the excitation of the semiconductor by photons ...
Solar energy represents a promising renewable energy source. In natural and artificial photosynthesi...
This chapter provides a general overview of photochemistry and photophysics, starting with photochem...
Light-matter interactions at the nanoscale have found great applications in photovoltaics and photoc...
none3noFirst Online: 24 October 2016Photocatalysis is an important branch of catalysis and much more...
Semiconductor materials which allow electron transfer reactions via metal centered mechanisms have p...
This book comprises a detailed overview on the role of photocatalysts for environmental remediation,...
The implementation of solar fuel generation as a clean, terawatt-scale energy source is critically d...
Photochemical energy conversion into solar fuel involves steps of light absorption, charge separatio...
Plasmonic metal nanostructures have been incorporated into semiconductors to enhance the solar-light...
Excited electronic states in semiconductors and metals have the potential to alter the rate and sele...
The development of visible light-responsive photocatalysts is needed for effective use of light ener...
Photocatalysis, in its broader meaning, indicates catalytic processes initiated by light. The term i...
Solar energy represents a promising renewable energy source. While photovoltaic technologies have be...
Increasing demand for energy and environmental degradation are the most serious problems facing the ...
Photocatalysis over semiconductors [1-4] is based on the excitation of the semiconductor by photons ...
Solar energy represents a promising renewable energy source. In natural and artificial photosynthesi...
This chapter provides a general overview of photochemistry and photophysics, starting with photochem...
Light-matter interactions at the nanoscale have found great applications in photovoltaics and photoc...
none3noFirst Online: 24 October 2016Photocatalysis is an important branch of catalysis and much more...
Semiconductor materials which allow electron transfer reactions via metal centered mechanisms have p...
This book comprises a detailed overview on the role of photocatalysts for environmental remediation,...
The implementation of solar fuel generation as a clean, terawatt-scale energy source is critically d...
Photochemical energy conversion into solar fuel involves steps of light absorption, charge separatio...
Plasmonic metal nanostructures have been incorporated into semiconductors to enhance the solar-light...