Efficiency enhancement in Si solar cells by textured photonic crystal back reflector

Feng, N; Zeng, L.; Hong, C.; Yi, Y.; Liu, J.; Alamariu, B. A.; Kimerling, L. C.; Duan, X.

doi:10.1063/1.2349845

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Efficiency enhancement in Si solar cells by textured photonic crystal back reflector

Author(s): L. Zeng , Y. Yi , C. Hong , J. Liu , N. Feng , X. Duan , L. C. Kimerling , B. A. Alamariu

Publication date Created: September 11 2006

Publication date (Print): September 11 2006

Journal: Applied Physics Letters

Publisher: AIP Publishing

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The Physics of Solar Cells

Jenny Nelson (2003)

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Submicrometer gratings for solar energy applications.

Renate C Heine-Bröring, M H Morf (1995)

Diffractive optical structures for increasing the efficiency of crystalline silicon solar cells are discussed. As a consequence of the indirect band gap, light absorption becomes very ineffective near the band edge. This can be remedied by use of optimized diffraction gratings that lead to light trapping. We present blazed gratings that increase the optically effective cell thickness by approximately a factor of 5. In addition we present a wideband antireflection structure for glass that consists of a diffraction grating with a dielectric overcoat, which leads to an average reflection of less than 0.6% in the wavelength range between 300 and 2100 nm.