We report the results of scanning laser-beam-induced current (LBIC) measurements on silicon heterojunction solar cells that indicate the length scale over which photogenerated carriers are sensitive to local defects at the amorphous silicon/crystalline silicon heterojunction interface. The defects were intentionally created with focused ion beam irradiation, enabling us to study how defects at a predefined and known location affect carrier collection and transport in neighboring regions where the device remains pristine. The characteristic length scale over which carriers in the pristine areas of the device are vulnerable to loss via recombination in the adjacent defective region increases to over 50 μm as the device is forward biased. For ...
A highly resolving micro-light beam-induced current (µLBIC)-system is presented in this work. Based ...
We present two-dimensional device physics simulations of amorphous silicon / crystalline silicon het...
:Heterojunction solar cells with thin film crystalline silicon absorber layer and amorphous silicon ...
We report the results of scanning laser-beam-induced current (LBIC) measurements on silicon heteroju...
We performed two experiments to measure lateral flow of photoexcited charge carriers near the hetero...
Abstract — We performed two experiments to measure lateral flow of photoexcited charge carriers nea...
In this work electron-beam-induced current (EBIC) is used to study the collection efficiency of emit...
The spatial variation of key properties of large area silicon thin film PV modules is investigated u...
We have investigated the carrier transport mechanisms in undoped a-Si:H/p-type c-Si heterojunctions ...
Silicon heterojunction SHJ solar cells represent a promising technological approach toward higher ...
International audienceBecause of the short penetration depth of ultraviolet (UV) in semiconductor, t...
Semiconductor materials used for making photovoltaic (PV) cells have defects and impurities due to c...
International audienceThe industrial fabrication process of silicon heterojunction (SHJ) solar cells...
The aim of this work is an experimental microscale comparison of several imperfection types of silic...
A laser beam induced current system has been developed for large area thin film technology. Employin...
A highly resolving micro-light beam-induced current (µLBIC)-system is presented in this work. Based ...
We present two-dimensional device physics simulations of amorphous silicon / crystalline silicon het...
:Heterojunction solar cells with thin film crystalline silicon absorber layer and amorphous silicon ...
We report the results of scanning laser-beam-induced current (LBIC) measurements on silicon heteroju...
We performed two experiments to measure lateral flow of photoexcited charge carriers near the hetero...
Abstract — We performed two experiments to measure lateral flow of photoexcited charge carriers nea...
In this work electron-beam-induced current (EBIC) is used to study the collection efficiency of emit...
The spatial variation of key properties of large area silicon thin film PV modules is investigated u...
We have investigated the carrier transport mechanisms in undoped a-Si:H/p-type c-Si heterojunctions ...
Silicon heterojunction SHJ solar cells represent a promising technological approach toward higher ...
International audienceBecause of the short penetration depth of ultraviolet (UV) in semiconductor, t...
Semiconductor materials used for making photovoltaic (PV) cells have defects and impurities due to c...
International audienceThe industrial fabrication process of silicon heterojunction (SHJ) solar cells...
The aim of this work is an experimental microscale comparison of several imperfection types of silic...
A laser beam induced current system has been developed for large area thin film technology. Employin...
A highly resolving micro-light beam-induced current (µLBIC)-system is presented in this work. Based ...
We present two-dimensional device physics simulations of amorphous silicon / crystalline silicon het...
:Heterojunction solar cells with thin film crystalline silicon absorber layer and amorphous silicon ...