Efficient black silicon solar cell with a density-graded nanoporous surface: Optical properties, performance limitations, and design rules

We study optical effects and factors limiting performance of our confirmed 16.8% efficiency black silicon solar cells. The cells incorporate density-graded nanoporous surface layers made by a one-step nanoparticle-catalyzed etch and reflect less than 3% of the solar spectrum, with no conventional antireflection coating. The cells are limited by recombination in the nanoporous layer which decreases short-wavelength spectral response. The optimum density-graded layer depth is then a compromise between reflectance reduction and recombination loss. Finally, we propose universal design rules for high-efficiency solar cells based on density-graded surfaces. (C) 2009 American Institute of Physics. [doi: 10.1063/1.3231438]