Add to ORKGIn this paper we describe the optical admittance method [1, 2] and discuss its use as a design tool to improve the conversion efficiency and the stability of typical single and double junction a-Si:H solar cells of the type: glass/TCO/pin/TCO/metal, and glass/TCO/pin/pin/metal. The use of silver, aluminium and combined TCO/metal rear contacts is also analysed
This paper reviews recent developments in the field of amorphous-silicon-based thin-film solar cells...
In this thesis it has been used the detailed electrical-optical model Amorphous Semiconductor Device...
Among various semiconductor technologies applied in photovoltaics, thin-film technologies offer seve...
An optical admittance method is applied to investigate the effect of light absorption enhancement on...
We have developed an optical analysis method to design the structure of multi-layer thin film solar ...
AbstractLight trapping is essential for thin-film silicon solar cells due to their thin absorber lay...
Simple methods for increasing the maximum achievable current density of amorphous silicon (a-Si:H) s...
Silicon heterojunction solar cells use crystalline silicon (c-Si) wafers as optical absorbers and em...
Abstract The poor lateral conductance of amorphous silicon necessitates the use of a contact cove...
We present a theoretical study of crystalline and amorphous silicon thin-film solar cells with a per...
Reducing the optical losses and increasing the reflection while maintaining the function of doped la...
AbstractLow cost triple junction solar cells, which are very important for the development of indust...
Carrier recombination at the metal contacts is a major obstacle in the development of high-performan...
We study polarization independent improved light trapping in commercial thin film hydrogenated amorp...
Using the admittance analysis method, the optimal design of a single junction a-Si : H solar cell is...
This paper reviews recent developments in the field of amorphous-silicon-based thin-film solar cells...
In this thesis it has been used the detailed electrical-optical model Amorphous Semiconductor Device...
Among various semiconductor technologies applied in photovoltaics, thin-film technologies offer seve...
An optical admittance method is applied to investigate the effect of light absorption enhancement on...
We have developed an optical analysis method to design the structure of multi-layer thin film solar ...
AbstractLight trapping is essential for thin-film silicon solar cells due to their thin absorber lay...
Simple methods for increasing the maximum achievable current density of amorphous silicon (a-Si:H) s...
Silicon heterojunction solar cells use crystalline silicon (c-Si) wafers as optical absorbers and em...
Abstract The poor lateral conductance of amorphous silicon necessitates the use of a contact cove...
We present a theoretical study of crystalline and amorphous silicon thin-film solar cells with a per...
Reducing the optical losses and increasing the reflection while maintaining the function of doped la...
AbstractLow cost triple junction solar cells, which are very important for the development of indust...
Carrier recombination at the metal contacts is a major obstacle in the development of high-performan...
We study polarization independent improved light trapping in commercial thin film hydrogenated amorp...
Using the admittance analysis method, the optimal design of a single junction a-Si : H solar cell is...
This paper reviews recent developments in the field of amorphous-silicon-based thin-film solar cells...
In this thesis it has been used the detailed electrical-optical model Amorphous Semiconductor Device...
Among various semiconductor technologies applied in photovoltaics, thin-film technologies offer seve...