Black nonreflecting silicon surfaces for solar cells
Abstract
We present a wet chemical process for nanoscale texturing of Si surfaces, which results in an almost complete suppression of the reflectivity in a broad spectral range, leading to black Si surfaces. The process affects only the topmost 200-300nm of the material and is independent of the surface orientation and doping. Thus, it can be applied to various structural forms of bulk silicon (single, poly-, or multicrystalline) as well as to thin Si films (amorphous or microcrystalline). The optical properties of various black Si samples are presented and discussed in correlation with the surface morphology.
- Publication:
-
Applied Physics Letters
- Pub Date:
- May 2006
- DOI:
- Bibcode:
- 2006ApPhL..88t3107K
- Keywords:
-
- 68.47.Fg;
- 81.05.Cy;
- 81.16.-c;
- 81.65.Cf;
- 68.35.Bs;
- 84.60.Jt;
- Semiconductor surfaces;
- Elemental semiconductors;
- Methods of nanofabrication and processing;
- Surface cleaning etching patterning;
- Structure of clean surfaces;
- Photoelectric conversion: solar cells and arrays