Work to understand CdS/CdTe solar cell device physics; increase magnetron sputtering rate (while keeping high device quality); reduce thickness of CdTe layers (while keeping voltage and fill factor)
During the first quarter of this renewed program, efforts have been extended mainly to set up a new ...
This report summarizes work performed by the University of South Florida Department of Electrical En...
In this paper we describe the fabrication and characteristics of highly efficient and stable CdTe/Cd...
High rate pulsed DC magnetron sputtering has been used to fabricate thin film CdTe photovoltaic devi...
In order to decrease the thickness of the close-spaced sublimation (CSS) deposited CdTe film, a nove...
This report describes work performed during the past year by The University of Toledo photovoltaics ...
In this study, CdTe (up to 2.0 µm thick) and oxygenated CdS (CdS:O, up to 100 nm thick) films were d...
Thin film cadmium telluride (CdTe) technology is the most important competitor for silicon (Si) base...
A CdSxTe1-x layer forms by interdiffusion of CdS and CdTe during the fabrication of thin-film CdTe p...
The University of Toledo photovoltaics group has been instrumental in developing rf sputtering for C...
It has been demonstrated that CdTe/CdS thin film solar cells can exhibit an efficiency around 16.5%....
Multiple sustainable energy sources are of paramount importance in today's ever power hungry-world. ...
AbstractIn the past, we described a dry process for the fabrication of CdTe/CdS thin film solar cell...
In the past, we described a dry process for the fabrication of CdTe/CdS thin film solar cells. In th...
High efficiency solar cells can be attained by the development of two junctions one stacked on top o...
During the first quarter of this renewed program, efforts have been extended mainly to set up a new ...
This report summarizes work performed by the University of South Florida Department of Electrical En...
In this paper we describe the fabrication and characteristics of highly efficient and stable CdTe/Cd...
High rate pulsed DC magnetron sputtering has been used to fabricate thin film CdTe photovoltaic devi...
In order to decrease the thickness of the close-spaced sublimation (CSS) deposited CdTe film, a nove...
This report describes work performed during the past year by The University of Toledo photovoltaics ...
In this study, CdTe (up to 2.0 µm thick) and oxygenated CdS (CdS:O, up to 100 nm thick) films were d...
Thin film cadmium telluride (CdTe) technology is the most important competitor for silicon (Si) base...
A CdSxTe1-x layer forms by interdiffusion of CdS and CdTe during the fabrication of thin-film CdTe p...
The University of Toledo photovoltaics group has been instrumental in developing rf sputtering for C...
It has been demonstrated that CdTe/CdS thin film solar cells can exhibit an efficiency around 16.5%....
Multiple sustainable energy sources are of paramount importance in today's ever power hungry-world. ...
AbstractIn the past, we described a dry process for the fabrication of CdTe/CdS thin film solar cell...
In the past, we described a dry process for the fabrication of CdTe/CdS thin film solar cells. In th...
High efficiency solar cells can be attained by the development of two junctions one stacked on top o...
During the first quarter of this renewed program, efforts have been extended mainly to set up a new ...
This report summarizes work performed by the University of South Florida Department of Electrical En...
In this paper we describe the fabrication and characteristics of highly efficient and stable CdTe/Cd...
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