Add to ORKGIn this work we present the manufacturing processes and results obtained from the characterization of heterojunction with intrinsic thin layer solar cells that include a heavily Ti ion implanted Si absorbing layer. The cells exhibit external circuit photocurrent at photon energies well below the Si bandgap. We discuss the origin of this below-bandgap photocurrent and the modifications in the hydrogenated amorphous intrinsic Si layer thickness to increase the open-circuit voltage.Peer Reviewe
We present a study on the performance and analysis of hybrid solar cells comprising a planar hetero...
High efficiency silicon solar cells generally feature heterojunction or carrier-selective contact ar...
The contact resistivity is a key parameter to reach high conversion efficiency in solar cells, espec...
In this work we present the manufacturing processes and results obtained from the characterization o...
In this work we present the manufacturing processes and results obtained from the characterization o...
According to intermediate band (IB) theory, it is possible to increase the efficiency of a solar cel...
Heterojunctions can be found in a wide variety of solar cells. This chapter presents the basics of h...
The current losses due to parasitic absorption in the indium tin oxide (ITO) and amorphous silicon (...
This paper reports the external quantum efficiency (EQE) of encapsulated screen-printed crystalline ...
We report on the basic properties of amorphous crystalline hetero junctions a Si H c Si , their eff...
Solar cells based on heterojunctions between hydrogenated amorphous a Si H and crystalline silicon...
We discuss here optical losses in silicon heterojunction solar cells and strategies to minimize them...
We report on the basic properties of a Si H c Si heterojunctions, their effects on the recombinatio...
In this paper we investigate in detail how the heterostructure concept can be implemented in an inte...
We present an overview that summarizes recent developments in amorphous crystalline silicon a Si H ...
We present a study on the performance and analysis of hybrid solar cells comprising a planar hetero...
High efficiency silicon solar cells generally feature heterojunction or carrier-selective contact ar...
The contact resistivity is a key parameter to reach high conversion efficiency in solar cells, espec...
In this work we present the manufacturing processes and results obtained from the characterization o...
In this work we present the manufacturing processes and results obtained from the characterization o...
According to intermediate band (IB) theory, it is possible to increase the efficiency of a solar cel...
Heterojunctions can be found in a wide variety of solar cells. This chapter presents the basics of h...
The current losses due to parasitic absorption in the indium tin oxide (ITO) and amorphous silicon (...
This paper reports the external quantum efficiency (EQE) of encapsulated screen-printed crystalline ...
We report on the basic properties of amorphous crystalline hetero junctions a Si H c Si , their eff...
Solar cells based on heterojunctions between hydrogenated amorphous a Si H and crystalline silicon...
We discuss here optical losses in silicon heterojunction solar cells and strategies to minimize them...
We report on the basic properties of a Si H c Si heterojunctions, their effects on the recombinatio...
In this paper we investigate in detail how the heterostructure concept can be implemented in an inte...
We present an overview that summarizes recent developments in amorphous crystalline silicon a Si H ...
We present a study on the performance and analysis of hybrid solar cells comprising a planar hetero...
High efficiency silicon solar cells generally feature heterojunction or carrier-selective contact ar...
The contact resistivity is a key parameter to reach high conversion efficiency in solar cells, espec...