Add to ORKGIn this study nanodisks made from aluminum are incorporated in a back-reflector scheme in order to enhance the maximum achievable current in one-micron thick crystalline silicon solar cells. We perform three-dimensional numerical investigations of the backward scattering properties of aluminum nanodisks located at the back side, and optimize them for enhancing the absorption in the silicon layer. We also compare our results with previously optimized silver nanodisks and show that Al nanodisks are nearly as efficient as Ag counterpart. We show that if the absorption in the metallic back reflector (flat metal layer) can be avoided; this results in a further enhancement in absorption in the ultra-thin silicon layer. The proposed configuration ...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
International audienceBroadband light trapping is numerically demonstrated in ultra-thin solar cells...
This research investigated the cutting-edge technology nanophotonics to enhance the light absorption...
In this study nanodisks made from aluminum are incorporated in a back-reflector scheme in order to e...
We propose a back reflecting scheme in order to enhance the maximum achievable current in one micron...
In this paper low cost and earth abundant Al nanoparticles are simulated and compared with noble met...
This article presents an effective structural design arrangement for light trapping in the front sur...
This article presents an effective structural design arrangement for light trapping in the front sur...
Recently plasmonic effects have gained tremendous interest in solar cell research because they are d...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
We investigate the influence of Al back reflectors on the optical absorption spectra of Si nanowire ...
Thick wafer-silicon is the dominant solar cell technology. It is of great interest to develop ultra-...
Plasmonic metal nanoparticles supporting localized surface plasmon resonances have attracted a great...
Significant photocurrent enhancement of 0.4 mA/cm2 has been achieved for industrial textured multicr...
Recently plasmonic effects have gained tremendous interest in solar cell research because they are d...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
International audienceBroadband light trapping is numerically demonstrated in ultra-thin solar cells...
This research investigated the cutting-edge technology nanophotonics to enhance the light absorption...
In this study nanodisks made from aluminum are incorporated in a back-reflector scheme in order to e...
We propose a back reflecting scheme in order to enhance the maximum achievable current in one micron...
In this paper low cost and earth abundant Al nanoparticles are simulated and compared with noble met...
This article presents an effective structural design arrangement for light trapping in the front sur...
This article presents an effective structural design arrangement for light trapping in the front sur...
Recently plasmonic effects have gained tremendous interest in solar cell research because they are d...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
We investigate the influence of Al back reflectors on the optical absorption spectra of Si nanowire ...
Thick wafer-silicon is the dominant solar cell technology. It is of great interest to develop ultra-...
Plasmonic metal nanoparticles supporting localized surface plasmon resonances have attracted a great...
Significant photocurrent enhancement of 0.4 mA/cm2 has been achieved for industrial textured multicr...
Recently plasmonic effects have gained tremendous interest in solar cell research because they are d...
This paper investigates mechanisms of enhanced light absorption exhibited by ultrathin Si solar micr...
International audienceBroadband light trapping is numerically demonstrated in ultra-thin solar cells...
This research investigated the cutting-edge technology nanophotonics to enhance the light absorption...