AbstractOptically black silicon nanostructures show excellent anti-reflection and light trapping properties minimizing reflection losses to less than 1.6% between 300 – 1100nm. Our light-trapping scheme enables an absorption enhancement factor of ∼10 at the band edge of silicon (1150nm) as compared to a simulated perfect ARC, where the Yablonovitch limit corresponds to a factor of 15. Just recently it was shown that similar wet-chemically black etched silicon surfaces can be exploited to fabricate high efficiency solar cells [1]. Towards the integration of our structures into a solar cell device, the passivation performance of atomic layer deposited thin Al2O3 films is investigated on a variety of black etched structures. The coatings lead ...
The nanostructured surface – also called black silicon (b-Si) – is a promising texture for solar cel...
Atomic layer deposited (ALD) Al 2 O 3 coatings were applied on black silicon (b-Si) structures. The ...
NOTICE: this is the author’s version of a work that was accepted for publication in Solar Energy Mat...
AbstractOptically black silicon nanostructures show excellent anti-reflection and light trapping pro...
Optically black silicon nanostructures show excellent anti-reflection and light trapping properties ...
AbstractIn this work we report on the long-term stability of black silicon surfaces passivated with ...
Optical properties of black silicon (b-Si) can be tailored to minimize reflection losses to less tha...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
AbstractBlack silicon is an interesting surface texture for solar cells because of its extremely low...
The nanostructured surface – also called black silicon (b-Si) – is a promising texture for solar cel...
The nanostructured surface – also called black silicon (b-Si) – is a promising texture for solar cel...
Atomic layer deposited (ALD) Al 2 O 3 coatings were applied on black silicon (b-Si) structures. The ...
NOTICE: this is the author’s version of a work that was accepted for publication in Solar Energy Mat...
AbstractOptically black silicon nanostructures show excellent anti-reflection and light trapping pro...
Optically black silicon nanostructures show excellent anti-reflection and light trapping properties ...
AbstractIn this work we report on the long-term stability of black silicon surfaces passivated with ...
Optical properties of black silicon (b-Si) can be tailored to minimize reflection losses to less tha...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
Black silicon (b-Si) nanotextures can significantly enhance the light absorption of crystalline sili...
AbstractBlack silicon is an interesting surface texture for solar cells because of its extremely low...
The nanostructured surface – also called black silicon (b-Si) – is a promising texture for solar cel...
The nanostructured surface – also called black silicon (b-Si) – is a promising texture for solar cel...
Atomic layer deposited (ALD) Al 2 O 3 coatings were applied on black silicon (b-Si) structures. The ...
NOTICE: this is the author’s version of a work that was accepted for publication in Solar Energy Mat...