We propose a design to confine light absorption in flat and ultra-thin amorphous silicon solar cells with a one-dimensional silver grating embedded in the front window of the cell.We show numerically that multi-resonant light trapping is achieved in both TE and TM polarizations. Each resonance is analyzed in detail and modeled by Fabry-Perot resonances or guided modes via grating coupling. This approach is generalized to a complete amorphous silicon solar cell, with the additional degrees of freedom provided by the buffer layers. These results could guide the design of resonant structures for optimized ultra-thin solar cells
Metallic and dielectric nanostructures have highly tunable resonances that have been used to increas...
Photovoltaics (PV) is a sustainable and clean source of energy and the sun provides more than enough...
Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes ...
International audienceWe propose a design to confine light absorption in flat and ultra-thin amorpho...
Photovoltaics is a sustainable and environmentally clean source of energy that has the potential to ...
Reducing the absorber thickness is an attractive solution to decrease the production cost of solar c...
The incorporation of plasmonic nanostructures in the thin-film solar cells (TFSCs) is a promising ro...
The incorporation of plasmonic nanostructures in the thin-film solar cells (TFSCs) is a promising ro...
The thesis is devoted to the development of novel broadband light-trapping structures based on regul...
Conventional photovoltaic devices are currently made from relatively thick semiconductor layers, sim...
To reduce costs, the solar cell industry aims at producing thinner solar cells. Structuring the surf...
Thin-film silicon solar cells offer the advantages of low material and manufacturing costs. In order...
International audienceWe present the modeling and simulation of a 50 nm ultrathin amorphous silicon ...
Plasmonic elements, such as metallic gratings, in thin solar cells have a strong potential to increa...
Thin film silicon solar cells are attractive for photovoltaics; however, the poor charge transport i...
Metallic and dielectric nanostructures have highly tunable resonances that have been used to increas...
Photovoltaics (PV) is a sustainable and clean source of energy and the sun provides more than enough...
Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes ...
International audienceWe propose a design to confine light absorption in flat and ultra-thin amorpho...
Photovoltaics is a sustainable and environmentally clean source of energy that has the potential to ...
Reducing the absorber thickness is an attractive solution to decrease the production cost of solar c...
The incorporation of plasmonic nanostructures in the thin-film solar cells (TFSCs) is a promising ro...
The incorporation of plasmonic nanostructures in the thin-film solar cells (TFSCs) is a promising ro...
The thesis is devoted to the development of novel broadband light-trapping structures based on regul...
Conventional photovoltaic devices are currently made from relatively thick semiconductor layers, sim...
To reduce costs, the solar cell industry aims at producing thinner solar cells. Structuring the surf...
Thin-film silicon solar cells offer the advantages of low material and manufacturing costs. In order...
International audienceWe present the modeling and simulation of a 50 nm ultrathin amorphous silicon ...
Plasmonic elements, such as metallic gratings, in thin solar cells have a strong potential to increa...
Thin film silicon solar cells are attractive for photovoltaics; however, the poor charge transport i...
Metallic and dielectric nanostructures have highly tunable resonances that have been used to increas...
Photovoltaics (PV) is a sustainable and clean source of energy and the sun provides more than enough...
Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes ...