Silicon heterojunction SHJ solar cells represent a promising technological approach toward higher photovoltaic efficiencies and lower fabrication cost. While the device physics of SHJ solar cells has been studied extensively in the past, the ways in which nanoscopic electronic processes such as charge carrier generation, recombination, trapping, and percolation affect SHJ device properties macroscopically are yet to be fully understood. We report the study of atomic scale current percolation at state of the art a Si H c Si heterojunction solar cells at room temperature, revealing the profound complexity of electronic SHJ interface processes. Using conduction atomic force microscopy, it is shown that the macroscopic current voltage charact...
The ability to deposit hydrogenated nanocrystalline silicon (nc-Si:H) on low-cost, flexible substrat...
The interface of high-quality crystalline silicon/hydrogenated amorphous silicon (c-Si/a-Si:H) is in...
Abstract We have employed state-of-the-art cross-correlation noise spectroscopy (CCNS) to study carr...
Silicon heterojunction SHJ solar cells represent a promising technological approach toward higher ...
Silicon heterojunction (SHJ) solar cells represent a promising technological approach toward higher ...
The contact resistivity is a key parameter to reach high conversion efficiency in solar cells, espec...
Abstract — We performed two experiments to measure lateral flow of photoexcited charge carriers nea...
We report the results of scanning laser-beam-induced current (LBIC) measurements on silicon heteroju...
The silicon heterojunction solar cell (SHJ) has made rapid progress in reaching high efficiency and ...
International audienceC-AFM and KPFM techniques have been applied to investigate advanced junctions ...
The silicon heterojunction solar cell (SHJ) has made rapid progress in reaching high efficiency and ...
The ability to deposit hydrogenated nanocrystalline silicon (nc-Si:H) on low-cost, flexible substrat...
The interface of high-quality crystalline silicon/hydrogenated amorphous silicon (c-Si/a-Si:H) is in...
Abstract We have employed state-of-the-art cross-correlation noise spectroscopy (CCNS) to study carr...
Silicon heterojunction SHJ solar cells represent a promising technological approach toward higher ...
Silicon heterojunction (SHJ) solar cells represent a promising technological approach toward higher ...
The contact resistivity is a key parameter to reach high conversion efficiency in solar cells, espec...
Abstract — We performed two experiments to measure lateral flow of photoexcited charge carriers nea...
We report the results of scanning laser-beam-induced current (LBIC) measurements on silicon heteroju...
The silicon heterojunction solar cell (SHJ) has made rapid progress in reaching high efficiency and ...
International audienceC-AFM and KPFM techniques have been applied to investigate advanced junctions ...
The silicon heterojunction solar cell (SHJ) has made rapid progress in reaching high efficiency and ...
The ability to deposit hydrogenated nanocrystalline silicon (nc-Si:H) on low-cost, flexible substrat...
The interface of high-quality crystalline silicon/hydrogenated amorphous silicon (c-Si/a-Si:H) is in...
Abstract We have employed state-of-the-art cross-correlation noise spectroscopy (CCNS) to study carr...