Title : Fluorescence resonance energy transfer of CaF2: Eu2+, Tb3+ applied to dye-sensitized solar cells.

Pub. Date : 2018 Sep 5

PMID : 29778708






4 Functional Relationships(s)
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Protein Name
Organism
1 Fluorescence resonance energy transfer of CaF2: Eu2+, Tb3+ applied to dye-sensitized solar cells. tb3+ CCR4-NOT transcription complex subunit 8 Homo sapiens
2 The emission spectra of CaF2: Eu2+, Tb3+ included the blue light of Eu2+ (4f 5d) at 430 nm and green emission of Tb3+ (5D4 7F5) at 542 nm under the monitoring wavelengths at 398 nm, which matched well the absorption range of the N719 dye in DSSCs. tb3+ CCR4-NOT transcription complex subunit 8 Homo sapiens
3 The emission spectra of CaF2: Eu2+, Tb3+ included the blue light of Eu2+ (4f 5d) at 430 nm and green emission of Tb3+ (5D4 7F5) at 542 nm under the monitoring wavelengths at 398 nm, which matched well the absorption range of the N719 dye in DSSCs. tb3+ CCR4-NOT transcription complex subunit 8 Homo sapiens
4 Moreover, CaF2: Eu2+, Tb3+ enlarged the surface area of TiO2 photonaodes, which helped the adsorption performance of the TiO2 film. tb3+ CCR4-NOT transcription complex subunit 8 Homo sapiens