High Efficiency Triple Junction Thin Film Silicon Solar Cells implementing Amorphous Silicon Germanium Alloy (TRIGGER)

Unité de recherche

INNOSUISSE

Numéro de projet

13333.1;11 PFFLR-NM

Titre du projet

High Efficiency Triple Junction Thin Film Silicon Solar Cells implementing Amorphous Silicon Germanium Alloy (TRIGGER)

Titre du projet anglais

High Efficiency Triple Junction Thin Film Silicon Solar Cells implementing Amorphous Silicon Germanium Alloy (TRIGGER)

Textes relatifs à ce projet

	Allemand	Français	Italien	Anglais
Description succincte	-		-
Résumé des résultats (Abstract)	-		-

Catégorie	Texte
Description succincte (Anglais)	High Efficiency Triple Junction Thin Film Silicon Solar Cells implementing Amorphous Silicon Germanium Alloy (TRIGGER)
Description succincte (Français)	High Efficiency Triple Junction Thin Film Silicon Solar Cells implementing Amorphous Silicon Germanium Alloy (TRIGGER)
Résumé des résultats (Abstract) (Anglais)	Advanced triple junction solar cell will be developed to further enhance the conversion efficiency of Thin film Silicon solar cells. High quality silicon germanium alloys will be synthesized on textured substrates, and implemented in the triple junction solar cells. Record devices will be developed on state-of-the-art substrates as well as on advanced electrodes. Up-scaling in large-area commercial reactors will finally be done to demonstrate feasibility of the proposed novel cell design.
Résumé des résultats (Abstract) (Français)	Advanced triple junction solar cell will be developed to further enhance the conversion efficiency of Thin film Silicon solar cells. High quality silicon germanium alloys will be synthesized on textured substrates, and implemented in the triple junction solar cells. Record devices will be developed on state-of-the-art substrates as well as on advanced electrodes. Up-scaling in large-area commercial reactors will finally be done to demonstrate feasibility of the proposed novel cell design.