Add to ORKGThe addressing of the light absorption and conversion efficiency is critical to the ultrathin-film hydrogenated amorphous silicon (a-Si:H) solar cells. We systematically investigate ultrathin a-Si:H solar cells with a 100 nm absorber on top of imprinted hexagonal nanodot arrays. Experimental evidences are demonstrated for not only notable silver nanodot arrays but also lower-cost ITO and Al:ZnO nanodot arrays. The measured external quantum efficiency is explained by the simulation results. The Jsc values are 12.1, 13.0, and 14.3 mA/cm2 and efficiencies are 6.6%, 7.5%, and 8.3% for ITO, Al:ZnO, and silver nanodot arrays, respectively. Simulated optical absorption distribution shows high light trapping within amorphous silicon layer
Strategies for enabling high light absorption in ultrathin solar cell layers may contribute importan...
Enhancing light absorption within thin film amorphous silicon (a-Si) solar cells should lead to high...
International audienceBroadband light trapping is numerically demonstrated in ultra-thin solar cells...
The addressing of the light absorption and conversion efficiency is critical to the ultrathin-film h...
Light trapping design is of critical importance for ultrathin a-Si:H solar cells. Three modelling me...
Performance of thin film photovoltaics largely relies on photon absorption capability. Here, we intr...
We report on the design and photovoltaic performance of nanostructured three dimensional (nano-3D) s...
We propose a nanostructured three-dimensional (nano-3D) solar cell design employing an ultrathin hyd...
The optical absorption properties of a-Si: H have acquired much attention in solar cell(SC) research...
An amorphous silicon solar cell on a periodic nanocone back reflector with a high 9.7% initial conve...
DoctorThin film solar cells have attracted much attention as renewable energy source due to their ad...
While low hole mobilities limit the current collection and efficiency of hydrogenated amorphous sili...
Hydrogenated amorphous-silicon (a-Si:H) thin-film solar cells have advantages of relatively simple t...
Entire band light management is crucial for amorphous silicon (a-Si) solar cells, especially when th...
Optical absorption enhancement in submicrometre silicon films with three types of nanotexturing arra...
Strategies for enabling high light absorption in ultrathin solar cell layers may contribute importan...
Enhancing light absorption within thin film amorphous silicon (a-Si) solar cells should lead to high...
International audienceBroadband light trapping is numerically demonstrated in ultra-thin solar cells...
The addressing of the light absorption and conversion efficiency is critical to the ultrathin-film h...
Light trapping design is of critical importance for ultrathin a-Si:H solar cells. Three modelling me...
Performance of thin film photovoltaics largely relies on photon absorption capability. Here, we intr...
We report on the design and photovoltaic performance of nanostructured three dimensional (nano-3D) s...
We propose a nanostructured three-dimensional (nano-3D) solar cell design employing an ultrathin hyd...
The optical absorption properties of a-Si: H have acquired much attention in solar cell(SC) research...
An amorphous silicon solar cell on a periodic nanocone back reflector with a high 9.7% initial conve...
DoctorThin film solar cells have attracted much attention as renewable energy source due to their ad...
While low hole mobilities limit the current collection and efficiency of hydrogenated amorphous sili...
Hydrogenated amorphous-silicon (a-Si:H) thin-film solar cells have advantages of relatively simple t...
Entire band light management is crucial for amorphous silicon (a-Si) solar cells, especially when th...
Optical absorption enhancement in submicrometre silicon films with three types of nanotexturing arra...
Strategies for enabling high light absorption in ultrathin solar cell layers may contribute importan...
Enhancing light absorption within thin film amorphous silicon (a-Si) solar cells should lead to high...
International audienceBroadband light trapping is numerically demonstrated in ultra-thin solar cells...