Add to ORKGThe integration of nanophotonic and plasmonic structures with solar cells offers the ability to control and confine light in nanoscale dimensions. These nanostructures can be used to couple incident sunlight into both localized and guided modes, enhancing absorption while reducing the quantity of material. Here we use electromagnetic modeling to study the resonances in a solar cell containing both plasmonic metal back contacts and nanostructured semiconductor top contacts, identify the local and guided modes contributing to enhanced absorption, and optimize the design. We then study the role of the different interfaces and show that Al is a viable plasmonic back contact material
Here we discuss the design, fabrication, and simulation of ultrathin film n-i-p a-Si:H solar cells i...
Plasmonic metal nanoparticles supporting localized surface plasmon resonances have attracted a great...
Photovoltaics are a key technology which can meet rising global demand for clean energy. However, si...
The integration of nanophotonic and plasmonic structures with solar cells offers the ability to cont...
Plasmonic nanostructures have been recently investigated as a possible way to improve absorption of ...
We report on the fabrication and optical simulation of a plasmonic light-trapping concept for microc...
We demonstrate that subwavelength scatterers can couple sunlight into guided modes in thin film Si a...
We report on a plasmonic light-trapping concept based on localized surface plasmon polariton induced...
We study the plasmonic and the non-plasmonic regimes of operation of a thin-film amorphous-silicon s...
We analytically investigate the light trapping performance in plasmonic solar cells with Si/metallic...
Palanchoke U, Kurz H, Noriega R, et al. Tuning the plasmonic absorption of metal reflectors by zinc ...
We systematically investigate the design of two-dimensional silver (Ag) hemisphere arrays on crystal...
ABSTRACT: Advanced light management in thin-film solar cells is becoming increasingly important to r...
We report on fabrication of plasmonic interfaces consisting of Ag nanoparticles on flat and textured...
Optically driven localised surface plasmons can be excited on sub-wavelength metal particles, which ...
Here we discuss the design, fabrication, and simulation of ultrathin film n-i-p a-Si:H solar cells i...
Plasmonic metal nanoparticles supporting localized surface plasmon resonances have attracted a great...
Photovoltaics are a key technology which can meet rising global demand for clean energy. However, si...
The integration of nanophotonic and plasmonic structures with solar cells offers the ability to cont...
Plasmonic nanostructures have been recently investigated as a possible way to improve absorption of ...
We report on the fabrication and optical simulation of a plasmonic light-trapping concept for microc...
We demonstrate that subwavelength scatterers can couple sunlight into guided modes in thin film Si a...
We report on a plasmonic light-trapping concept based on localized surface plasmon polariton induced...
We study the plasmonic and the non-plasmonic regimes of operation of a thin-film amorphous-silicon s...
We analytically investigate the light trapping performance in plasmonic solar cells with Si/metallic...
Palanchoke U, Kurz H, Noriega R, et al. Tuning the plasmonic absorption of metal reflectors by zinc ...
We systematically investigate the design of two-dimensional silver (Ag) hemisphere arrays on crystal...
ABSTRACT: Advanced light management in thin-film solar cells is becoming increasingly important to r...
We report on fabrication of plasmonic interfaces consisting of Ag nanoparticles on flat and textured...
Optically driven localised surface plasmons can be excited on sub-wavelength metal particles, which ...
Here we discuss the design, fabrication, and simulation of ultrathin film n-i-p a-Si:H solar cells i...
Plasmonic metal nanoparticles supporting localized surface plasmon resonances have attracted a great...
Photovoltaics are a key technology which can meet rising global demand for clean energy. However, si...