SciCombinator

Discover the most talked about and latest scientific content & concepts.

A Rahman, A Ashraf, H Xin, X Tong, P Sutter, MD Eisaman and CT Black
Abstract
Materials providing broadband light antireflection have applications as highly transparent window coatings, military camouflage, and coatings for efficiently coupling light into solar cells and out of light-emitting diodes. In this work, densely packed silicon nanotextures with feature sizes smaller than 50 nm enhance the broadband antireflection compared with that predicted by their geometry alone. A significant fraction of the nanotexture volume comprises a surface layer whose optical properties differ substantially from those of the bulk, providing the key to improved performance. The nanotexture reflectivity is quantitatively well-modelled after accounting for both its profile and changes in refractive index at the surface. We employ block copolymer self-assembly for precise and tunable nanotexture design in the range of ~10-70 nm across macroscopic solar cell areas. Implementing this efficient antireflection approach in crystalline silicon solar cells significantly betters the performance gain compared with an optimized, planar antireflection coating.
Tweets*
2
Facebook likes*
1
Reddit*
0
News coverage*
14
Blogs*
0
SC clicks
0
Concepts
P-n junction, Wafer, Crystalline silicon, Nanocrystalline silicon, Amorphous silicon, Germanium, Diode, Solar cell
MeSH headings
-
comments powered by Disqus

* Data courtesy of Altmetric.com