Contains fulltext : 59269.pdf (publisher's version ) (Closed access)Thin film GaAs solar cells, separated from their substrate using the weight-induced epitaxial lift-off technique, were compared with conventional cells on a substrate. The thin film cells can be illuminated from both sides using a mirror. The thickness of the p-type GaAs layer, which is the base layer for front illumination and the emitter layer for rear illumination, was varied between 0.25 and 2.5 mum. For both front and rear illumination, the cell efficiency shows a maximum at a thickness of 1.5 mum. The rear illuminated cell current is only 10% lower than for front illumination. Light reflection in the thin film cell enhances the external quantum effic...
Radiatively dominated III-V semiconductor solar cells are strongly influenced by the effects of phot...
Light trapping enhances the absorption of active materials in photovoltaic cells. The use of light t...
Contains fulltext : 33157.pdf (publisher's version ) (Closed access)In the present...
Contains fulltext : 174587.pdf (publisher's version ) (Open Access)20th European P...
In this work, we propose and realize three different design strategies to implement an optical cavit...
The epitaxial lift-off technique can be used to separate a III–V solar cell structure from its under...
Contains fulltext : 174593.pdf (preprint version ) (Open Access)WCPEC-3: Proceedin...
Photon recycling mechanisms in single junction thin-film GaAs solar cells are evaluated in this stud...
Abstract—In this work authors presented improvement performance of GaAs solar cell of antireflection...
Very reflective back side reflectors directly below the active region of a solar cell alter the phot...
Contains fulltext : 35253.pdf (publisher's version ) (Closed access
Multijunction (MJ) solar cells have the potential to operate across the entire solar spectrum, for u...
The highest efficiencies in single-junction solar cells are obtained with devices based on GaAs. As ...
Contains fulltext : 32471.pdf (publisher's version ) (Closed access)The present wo...
Nowadays thin-film solar cells are increasingly used mainly because of their low cost. In recent dec...
Radiatively dominated III-V semiconductor solar cells are strongly influenced by the effects of phot...
Light trapping enhances the absorption of active materials in photovoltaic cells. The use of light t...
Contains fulltext : 33157.pdf (publisher's version ) (Closed access)In the present...
Contains fulltext : 174587.pdf (publisher's version ) (Open Access)20th European P...
In this work, we propose and realize three different design strategies to implement an optical cavit...
The epitaxial lift-off technique can be used to separate a III–V solar cell structure from its under...
Contains fulltext : 174593.pdf (preprint version ) (Open Access)WCPEC-3: Proceedin...
Photon recycling mechanisms in single junction thin-film GaAs solar cells are evaluated in this stud...
Abstract—In this work authors presented improvement performance of GaAs solar cell of antireflection...
Very reflective back side reflectors directly below the active region of a solar cell alter the phot...
Contains fulltext : 35253.pdf (publisher's version ) (Closed access
Multijunction (MJ) solar cells have the potential to operate across the entire solar spectrum, for u...
The highest efficiencies in single-junction solar cells are obtained with devices based on GaAs. As ...
Contains fulltext : 32471.pdf (publisher's version ) (Closed access)The present wo...
Nowadays thin-film solar cells are increasingly used mainly because of their low cost. In recent dec...
Radiatively dominated III-V semiconductor solar cells are strongly influenced by the effects of phot...
Light trapping enhances the absorption of active materials in photovoltaic cells. The use of light t...
Contains fulltext : 33157.pdf (publisher's version ) (Closed access)In the present...