[HTML][HTML] Hot-electron transfer in quantum-dot heterojunction films
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
[PDF][PDF] Hot-electron transfer in quantum-dot heterojunction films
G Grimaldi, RW Crisp, S ten Brinck, F Zapata… - research.tudelft.nl
Results Films characterization. QD heterojunction films were prepared by depositing
alternating layers of PbSe and CdSe QDs on a quartz substrate (Supplementary Note 1 …
alternating layers of PbSe and CdSe QDs on a quartz substrate (Supplementary Note 1 …
Hot-electron transfer in quantum-dot heterojunction films
G Grimaldi, RW Crisp, S Ten Brinck… - Nature …, 2018 - pubmed.ncbi.nlm.nih.gov
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
Hot-electron transfer in quantum-dot heterojunction films
G Grimaldi, RW Crisp, S Ten Brinck, F Zapata… - Nature …, 2018 - research.vu.nl
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
Hot-electron transfer in quantum-dot heterojunction films
G Grimaldi, RW Crisp, S Ten Brinck… - Nature …, 2018 - repository.tudelft.nl
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
Hot-electron transfer in quantum-dot heterojunction films.
G Grimaldi, RW Crisp, S Brinck… - Nature …, 2018 - search.ebscohost.com
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
Hot-electron transfer in quantum-dot heterojunction films.
G Grimaldi, RW Crisp, S Ten Brinck, F Zapata… - Nature …, 2018 - europepmc.org
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
Hot-electron transfer in quantum-dot heterojunction films
G Grimaldi, RW Crisp, S Brinck, F Zapata… - Nature …, 2018 - econpapers.repec.org
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
Hot-electron transfer in quantum-dot heterojunction films
G Grimaldi, RW Crisp, S Brinck, F Zapata… - Nature …, 2018 - ideas.repec.org
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
Hot-electron transfer in quantum-dot heterojunction films
G Grimaldi, RW Crisp, S ten Brinck… - Nature …, 2018 - ui.adsabs.harvard.edu
Thermalization losses limit the photon-to-power conversion of solar cells at the high-energy
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …
side of the solar spectrum, as electrons quickly lose their energy relaxing to the band edge …