Add to ORKGNanostructured light trapping has emerged as a promising route toward improved efficiency in solar cells. We use coupled optical and electrical modeling to guide optimization of such nanostructures. We study thin-film n-i-p a-Si:H devices and demonstrate that nanostructures can be tailored to minimize absorption in the doped a-Si:H, improving carrier collection efficiency. This suggests a method for device optimization in which optical design not only maximizes absorption, but also ensures resulting carriers are efficiently collected
The main challenge with the use of silicon for photovoltaics is that silicon is not a strong absorbe...
Rigorous finite element optical simulations have been used to examine the absorption of light in va...
Light trapping design is of critical importance for ultrathin a-Si:H solar cells. Three modelling me...
Nanostructured light trapping has emerged as a promising route toward improved efficiency in solar c...
Controlled nanostructuring of thin-film solar cells offers a promising route toward increased effici...
Here we discuss the design, fabrication, and simulation of ultrathin film n-i-p a-Si:H solar cells i...
The integration of nanophotonic and plasmonic structures with solar cells offers the ability to cont...
We report on the design, fabrication, and measurement of ultrathin film a-Si:H solar cells with nano...
Enhancing light absorption within thin film amorphous silicon (a-Si) solar cells should lead to high...
DoctorThin film solar cells have attracted much attention as renewable energy source due to their ad...
A novel structure for thin-film solar cells is simulated with the purpose of maximizing the absorpti...
AbstractWe describe a method based on nanoimprinting and non-absorbing insulating silicon nitride el...
We describe a method based on nanoimprinting and non-absorbing insulating silicon nitride electrodes...
The optical absorption properties of a-Si: H have acquired much attention in solar cell(SC) research...
This dissertation presents numerical and experimental studies of a unified light trapping approach t...
The main challenge with the use of silicon for photovoltaics is that silicon is not a strong absorbe...
Rigorous finite element optical simulations have been used to examine the absorption of light in va...
Light trapping design is of critical importance for ultrathin a-Si:H solar cells. Three modelling me...
Nanostructured light trapping has emerged as a promising route toward improved efficiency in solar c...
Controlled nanostructuring of thin-film solar cells offers a promising route toward increased effici...
Here we discuss the design, fabrication, and simulation of ultrathin film n-i-p a-Si:H solar cells i...
The integration of nanophotonic and plasmonic structures with solar cells offers the ability to cont...
We report on the design, fabrication, and measurement of ultrathin film a-Si:H solar cells with nano...
Enhancing light absorption within thin film amorphous silicon (a-Si) solar cells should lead to high...
DoctorThin film solar cells have attracted much attention as renewable energy source due to their ad...
A novel structure for thin-film solar cells is simulated with the purpose of maximizing the absorpti...
AbstractWe describe a method based on nanoimprinting and non-absorbing insulating silicon nitride el...
We describe a method based on nanoimprinting and non-absorbing insulating silicon nitride electrodes...
The optical absorption properties of a-Si: H have acquired much attention in solar cell(SC) research...
This dissertation presents numerical and experimental studies of a unified light trapping approach t...
The main challenge with the use of silicon for photovoltaics is that silicon is not a strong absorbe...
Rigorous finite element optical simulations have been used to examine the absorption of light in va...
Light trapping design is of critical importance for ultrathin a-Si:H solar cells. Three modelling me...