We propose a back reflecting scheme in order to enhance the maximum achievable current in one micron thick crystalline silicon solar cells. We perform 3D numerical investigations of the scattering properties of metallic nanostructures located at the back side and optimize them for enhancing absorption in the silicon layer. We validate our numerical results experimentally and also compare the absorption enhancement in the solar cell structure, both with quasi-periodic and random metallic nanostructures. We have looked at the interplay between the metallic nanostructures and an integrated back reflector. We show that the combination of metallic nanoparticles and a metallic reflector results in significant parasitic absorption. We compared thi...
Most types of thin film solar cells require light management to achieve sufficient light absorptance...
The high-index all-dielectric nanoantenna system is a platform recently used for multiple applicatio...
We study n-i-p amorphous silicon solar cells with light-scattering nanoparticles in the back reflect...
We propose a back reflecting scheme in order to enhance the maximum achievable current in one micron...
In this study nanodisks made from aluminum are incorporated in a back-reflector scheme in order to e...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
Thick wafer-silicon is the dominant solar cell technology. It is of great interest to develop ultra-...
The low conversion efficiency of thin-film silicon solar cells currently prevents them from competin...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
The article presents a nanoparticle-based buried light-scattering (BLiS) back-reflector design reali...
Photovoltaics are a key technology which can meet rising global demand for clean energy. However, si...
Photovoltaics is a sustainable and environmentally clean source of energy that has the potential to ...
\u3cp\u3eThe efficiency of thin film Si photovoltaic (PV) cells is lower than cells made of c-Si waf...
Most types of thin film solar cells require light management to achieve sufficient light absorptance...
Most types of thin film solar cells require light management to achieve sufficient light absorptance...
The high-index all-dielectric nanoantenna system is a platform recently used for multiple applicatio...
We study n-i-p amorphous silicon solar cells with light-scattering nanoparticles in the back reflect...
We propose a back reflecting scheme in order to enhance the maximum achievable current in one micron...
In this study nanodisks made from aluminum are incorporated in a back-reflector scheme in order to e...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
Thick wafer-silicon is the dominant solar cell technology. It is of great interest to develop ultra-...
The low conversion efficiency of thin-film silicon solar cells currently prevents them from competin...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
The article presents a nanoparticle-based buried light-scattering (BLiS) back-reflector design reali...
Photovoltaics are a key technology which can meet rising global demand for clean energy. However, si...
Photovoltaics is a sustainable and environmentally clean source of energy that has the potential to ...
\u3cp\u3eThe efficiency of thin film Si photovoltaic (PV) cells is lower than cells made of c-Si waf...
Most types of thin film solar cells require light management to achieve sufficient light absorptance...
Most types of thin film solar cells require light management to achieve sufficient light absorptance...
The high-index all-dielectric nanoantenna system is a platform recently used for multiple applicatio...
We study n-i-p amorphous silicon solar cells with light-scattering nanoparticles in the back reflect...