Add to ORKGIn a race to reduce the cost per Watt of solar generated power, there is generally a tradeoff between high efficiency and low cost. By going to thinner devices, less material can be used; however, clever light management designs must be utilized to avoid the loss in current caused by reduced absorption in a thin active layer. Here we discuss such design schemes incorporating either dielectric or metallic structures to approach the bulk absorption limit in optically thin layers. As a specific example, a plasmonic back grating can result in absorption of 80 % of the incident above bandgap light in a GaAs layer of only 200 nm. If the reduction in current upon thinning of the cell is limited, an improvement in the open circuit voltage can be ob...
We experimentally investigate the light-trapping effect of plasmonic reflection grating back contact...
The incorporation of plasmonic scattering structures withphotovoltaics has been shown to increase so...
Thin film solar cells are promising to realize cheap solar energy. Compared to conventional wafer ce...
In a race to reduce the cost per Watt of solar generated power, there is generally a tradeoff betwee...
This work describes an investigation into optical methods to improve the optical absorption properti...
We demonstrate that subwavelength scatterers can couple sunlight into guided modes in thin film Si a...
Plasmonic elements, such as metallic gratings, in thin solar cells have a strong potential to increa...
Metallic nanostructures can excite surface plasmons and can dramatically increase the optical path l...
Photovoltaics are a key technology which can meet rising global demand for clean energy. However, si...
Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes ...
This thesis explores ways to create highly efficient, thin-film solar cells. Both high short circuit...
Most development work in the laboratory is dedicated to efficiency enhancements at the cell level; i...
Integration of a rear surface nanophotonic grating can increase photocurrent in ultra-thin solar cel...
ABSTRACT: Advanced light management in thin-film solar cells is becoming increasingly important to r...
Plasmonic light trapping in thin film solar cells is investigated using full-wave electromagnetic si...
We experimentally investigate the light-trapping effect of plasmonic reflection grating back contact...
The incorporation of plasmonic scattering structures withphotovoltaics has been shown to increase so...
Thin film solar cells are promising to realize cheap solar energy. Compared to conventional wafer ce...
In a race to reduce the cost per Watt of solar generated power, there is generally a tradeoff betwee...
This work describes an investigation into optical methods to improve the optical absorption properti...
We demonstrate that subwavelength scatterers can couple sunlight into guided modes in thin film Si a...
Plasmonic elements, such as metallic gratings, in thin solar cells have a strong potential to increa...
Metallic nanostructures can excite surface plasmons and can dramatically increase the optical path l...
Photovoltaics are a key technology which can meet rising global demand for clean energy. However, si...
Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes ...
This thesis explores ways to create highly efficient, thin-film solar cells. Both high short circuit...
Most development work in the laboratory is dedicated to efficiency enhancements at the cell level; i...
Integration of a rear surface nanophotonic grating can increase photocurrent in ultra-thin solar cel...
ABSTRACT: Advanced light management in thin-film solar cells is becoming increasingly important to r...
Plasmonic light trapping in thin film solar cells is investigated using full-wave electromagnetic si...
We experimentally investigate the light-trapping effect of plasmonic reflection grating back contact...
The incorporation of plasmonic scattering structures withphotovoltaics has been shown to increase so...
Thin film solar cells are promising to realize cheap solar energy. Compared to conventional wafer ce...