Add to ORKGThe high efficiency reported recently by NREL for CIGS solar cells demonstrates the potential of band gap grading in producing high efficiency thin film solar cells. In order to reap the full benefits of this design strategy, a clear understanding of the fundamental device physics of these structures is needed. The purpose of this paper is to examine the role grading of the band gap plays in achieving high conversion efficiencies. To aid in this examination, a detailed numerical device simulation program, ADEPT, is used
none3siCIGS thin film solar cells with Valence Band (VB) and Conduction Band (CB) grading in the spa...
To simulate the complicated, graded structure of modern thin film CIGS solar cells, we followed a �m...
A numerical simulation and analysis was performed to investigate the effect of absorber and buffer l...
This paper discusses how graded absorber structures in CIGS-based solar cell can be studied using th...
The Cu(In,Ga)(S,Se)2-material system (CIGSSe) has an adjustable band gap which allows to make struct...
The Cu(In,Ga)(S,Se)2-material system (CIGSSe) has an adjustable band gap which allows to make struct...
This paper discusses how graded absorber structures in CIGS-based solar cell can be studied using th...
The characteristics of the graded band gap profiles of the CIGS thin film solar cells have been revi...
The characteristics of the graded band gap profiles of the CIGS thin film solar cells have been revi...
AbstractThe CIGS material system has an adjustable bandgap. A ‘grading’ of the bandgap through the t...
none4siThe characteristics of the graded band gap profiles of the CIGS thin film solar cells have be...
AbstractThe effects of quasi-electric fields, caused by the band-gap variation of the active semicon...
none4siIn this paper the characteristics of the graded band gap profiles of CIGS thin film solar cel...
In this paper the characteristics of the graded band gap profiles of CIGS thin film solar cells are ...
In this paper the characteristics of the graded band gap profiles of CIGS thin film solar cells are ...
none3siCIGS thin film solar cells with Valence Band (VB) and Conduction Band (CB) grading in the spa...
To simulate the complicated, graded structure of modern thin film CIGS solar cells, we followed a �m...
A numerical simulation and analysis was performed to investigate the effect of absorber and buffer l...
This paper discusses how graded absorber structures in CIGS-based solar cell can be studied using th...
The Cu(In,Ga)(S,Se)2-material system (CIGSSe) has an adjustable band gap which allows to make struct...
The Cu(In,Ga)(S,Se)2-material system (CIGSSe) has an adjustable band gap which allows to make struct...
This paper discusses how graded absorber structures in CIGS-based solar cell can be studied using th...
The characteristics of the graded band gap profiles of the CIGS thin film solar cells have been revi...
The characteristics of the graded band gap profiles of the CIGS thin film solar cells have been revi...
AbstractThe CIGS material system has an adjustable bandgap. A ‘grading’ of the bandgap through the t...
none4siThe characteristics of the graded band gap profiles of the CIGS thin film solar cells have be...
AbstractThe effects of quasi-electric fields, caused by the band-gap variation of the active semicon...
none4siIn this paper the characteristics of the graded band gap profiles of CIGS thin film solar cel...
In this paper the characteristics of the graded band gap profiles of CIGS thin film solar cells are ...
In this paper the characteristics of the graded band gap profiles of CIGS thin film solar cells are ...
none3siCIGS thin film solar cells with Valence Band (VB) and Conduction Band (CB) grading in the spa...
To simulate the complicated, graded structure of modern thin film CIGS solar cells, we followed a �m...
A numerical simulation and analysis was performed to investigate the effect of absorber and buffer l...