Add to ORKGA new GaAs nipi doping superlattice solar cell structure is presented, which holds promise for high efficiency coupled with very high radiation tolerance. The structure has all contacts on the unilluminated side. Design constraints are presented which this structure must satisfy in order to exhibit high efficiency and high radiation tolerance. The results of self-consistent quantum mechanical calculations are presented which show that a viable design of this cell would include relatively thick n and p layers which are fairly heavily doped
2019-04-26Large-scale deployment of GaAs solar cells in terrestrial photovoltaics demands significan...
The goal of this dissertation is to establish a pathway towards development of cost-effective high e...
Gallium arsenide (GaAs) peeled film solar cells were fabricated, by Organo-Metallic Vapor Phase Epit...
The development of photovoltaics as an energy source has been propelled by numerous technological ad...
In recently years, Ga(0.5)In((0.5)P/GaAs cells have drawn increased attention both because of their ...
The activity in the field of photovoltaic semiconductor superstructures is described. Progress was a...
The preference of N on P as the preferred structure rather than the common P on N structure, the des...
A theoretical conversion efficiency of 36.4% at 1000 suns concentration has been determined by means...
Abstract We demonstrate for the first time the operation of GaInNAs and GaAs n-i-p-i dopin...
The radiation hardness of a two-junction monolithic Ga sub 0.5 In sub 0.5 P/GaAs cell with tunnel ju...
A novel class of photovoltaic cascade structures is introduced which features multijunction upper su...
The surface recombination velocity (S sub rec) for bare GaAs is typically as high as 10 to the 6th p...
Several oxidation techniques are discussed which have been found to increase the open circuit (V sub...
A new Molecular Beam Epitaxy system that can be pumped down to 10-11torr is set up. The ultra high v...
This paper describes ultra-lightweight, high performance, thin, light trapping GaAs solar cells for ...
2019-04-26Large-scale deployment of GaAs solar cells in terrestrial photovoltaics demands significan...
The goal of this dissertation is to establish a pathway towards development of cost-effective high e...
Gallium arsenide (GaAs) peeled film solar cells were fabricated, by Organo-Metallic Vapor Phase Epit...
The development of photovoltaics as an energy source has been propelled by numerous technological ad...
In recently years, Ga(0.5)In((0.5)P/GaAs cells have drawn increased attention both because of their ...
The activity in the field of photovoltaic semiconductor superstructures is described. Progress was a...
The preference of N on P as the preferred structure rather than the common P on N structure, the des...
A theoretical conversion efficiency of 36.4% at 1000 suns concentration has been determined by means...
Abstract We demonstrate for the first time the operation of GaInNAs and GaAs n-i-p-i dopin...
The radiation hardness of a two-junction monolithic Ga sub 0.5 In sub 0.5 P/GaAs cell with tunnel ju...
A novel class of photovoltaic cascade structures is introduced which features multijunction upper su...
The surface recombination velocity (S sub rec) for bare GaAs is typically as high as 10 to the 6th p...
Several oxidation techniques are discussed which have been found to increase the open circuit (V sub...
A new Molecular Beam Epitaxy system that can be pumped down to 10-11torr is set up. The ultra high v...
This paper describes ultra-lightweight, high performance, thin, light trapping GaAs solar cells for ...
2019-04-26Large-scale deployment of GaAs solar cells in terrestrial photovoltaics demands significan...
The goal of this dissertation is to establish a pathway towards development of cost-effective high e...
Gallium arsenide (GaAs) peeled film solar cells were fabricated, by Organo-Metallic Vapor Phase Epit...