We have investigated structures for thin-film GaAs quantum dot solar cells. Light trapping at quantum dot bands is realized by a triangular grating reflector whose aspect ratio is identified as the main design parameter
This paper presents the design and analysis of nano-structured gratings to improve the conversion ef...
We report on fabrication of microstructured metal/polymer back reflectors for light trapping in III-...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This paper mainly focuses on increasing th...
We study InAs/GaAs quantum dot solar cells exploiting light trapping approaches to enhance the inter...
The work presents the design of a diffraction back grating for light-trapping in thin-film GaAs-base...
Quantum dot solar cells are promising for next-generation photovoltaics owing to their potential for...
This work summarizes our results in the development of high efficiency III-V quantum dot (QD) solar ...
We report thin-film InAs/GaAs QD solar cells fabricated by epitaxial lift-off of 3-inch wafers cont...
textHigh efficiency photovoltaic solar cells are expected to continue to be important for a variety ...
Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes ...
In the past decade, photovoltaics (PV) has become a key player for the future of worldwide energy ge...
We report the effect of the quantum dot aspect ratio on the sub-gap absorption properties of GaAs/Al...
textPhoton management via submicron and subwavelength nanostructures has been extensively studied ov...
We report on the development of light-Trapping architectures applied to thin-film solar cells. In pa...
This paper presents the design and analysis of nano-structured gratings to improve the conversion ef...
This paper presents the design and analysis of nano-structured gratings to improve the conversion ef...
We report on fabrication of microstructured metal/polymer back reflectors for light trapping in III-...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This paper mainly focuses on increasing th...
We study InAs/GaAs quantum dot solar cells exploiting light trapping approaches to enhance the inter...
The work presents the design of a diffraction back grating for light-trapping in thin-film GaAs-base...
Quantum dot solar cells are promising for next-generation photovoltaics owing to their potential for...
This work summarizes our results in the development of high efficiency III-V quantum dot (QD) solar ...
We report thin-film InAs/GaAs QD solar cells fabricated by epitaxial lift-off of 3-inch wafers cont...
textHigh efficiency photovoltaic solar cells are expected to continue to be important for a variety ...
Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes ...
In the past decade, photovoltaics (PV) has become a key player for the future of worldwide energy ge...
We report the effect of the quantum dot aspect ratio on the sub-gap absorption properties of GaAs/Al...
textPhoton management via submicron and subwavelength nanostructures has been extensively studied ov...
We report on the development of light-Trapping architectures applied to thin-film solar cells. In pa...
This paper presents the design and analysis of nano-structured gratings to improve the conversion ef...
This paper presents the design and analysis of nano-structured gratings to improve the conversion ef...
We report on fabrication of microstructured metal/polymer back reflectors for light trapping in III-...
© 2020 by the authors. Licensee MDPI, Basel, Switzerland. This paper mainly focuses on increasing th...
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