This paper discusses the potential of the intermediate band solar cell _IBSC_ concept to improve the efficiency of thin-film chalcopyrite solar cells. The results show that solar cells based on CuGaS2, with a radiative limiting efficiency of 46.7%, exhibit the highest potential. A simple method for the identification of transition elements that when incorporated in CuGaS2 could possibly introduce an intermediate band is also described. The IBSC concept is also applied under the assumptions that thin-film solar cells are not to be operated under concentrated light and that a non-negligible contribution of nonradiative recombination exists
Thin film solar cells based on polycrystalline absorbers have reached very high conversion efficienc...
An intermediate band solar cell is a novel photovoltaic device with the potential to exceed the effi...
The intermediate band solar cell (IBSC) is based on a novel photovoltaic concept and has a limiting ...
This thesis presents theoretical work on the intermediate band solar cell (IBCS). It is divided into...
IBPOWER is a Project awarded under the 7th European Framework Programme that aims to advance resear...
AbstractThe potential of three advanced optical concepts in chalcopyrite-based solar cells is invest...
The intermediate band (IB) solar cell (Fig. 1) has been proposed [1] to increase photovoltaic effici...
The intermediate band solar cell (IBSC) is a solar cell that, in order to increase its efficiency ov...
AbstractIn this paper we have implemented a model for the intermediate band GaAs solar cell. The mod...
The use of thin film solar cells for power generation when colonizing space stations is an interesti...
We present absorption properties enhancement for two CuGaS2-based intermediate-band materials, as pr...
As one of the most promising solutions for the green energy, thin-film photovoltaic cell technology ...
The intermediate-band solar cell is designed to provide a large photogenerated current while maintai...
The intermediate band solar cell (IBSC), the multiple exciton generation solar cell (MEGSC) and the ...
Within the framework of the third solar cell generation some new ideas to enlarge the spectral respo...
Thin film solar cells based on polycrystalline absorbers have reached very high conversion efficienc...
An intermediate band solar cell is a novel photovoltaic device with the potential to exceed the effi...
The intermediate band solar cell (IBSC) is based on a novel photovoltaic concept and has a limiting ...
This thesis presents theoretical work on the intermediate band solar cell (IBCS). It is divided into...
IBPOWER is a Project awarded under the 7th European Framework Programme that aims to advance resear...
AbstractThe potential of three advanced optical concepts in chalcopyrite-based solar cells is invest...
The intermediate band (IB) solar cell (Fig. 1) has been proposed [1] to increase photovoltaic effici...
The intermediate band solar cell (IBSC) is a solar cell that, in order to increase its efficiency ov...
AbstractIn this paper we have implemented a model for the intermediate band GaAs solar cell. The mod...
The use of thin film solar cells for power generation when colonizing space stations is an interesti...
We present absorption properties enhancement for two CuGaS2-based intermediate-band materials, as pr...
As one of the most promising solutions for the green energy, thin-film photovoltaic cell technology ...
The intermediate-band solar cell is designed to provide a large photogenerated current while maintai...
The intermediate band solar cell (IBSC), the multiple exciton generation solar cell (MEGSC) and the ...
Within the framework of the third solar cell generation some new ideas to enlarge the spectral respo...
Thin film solar cells based on polycrystalline absorbers have reached very high conversion efficienc...
An intermediate band solar cell is a novel photovoltaic device with the potential to exceed the effi...
The intermediate band solar cell (IBSC) is based on a novel photovoltaic concept and has a limiting ...