Fabrication and simulation of antireflective nanostructures on c-Si solar cells

Ming-Hsuan Kao; Ting-Gang Chen; Min-An Tsai; Hsin-Chu Chen; Fang-I Lai; Shou-Yi Kuo; Pei-Chen Yu; Hao-Chung Kuo

Proceedings of the International Quantum Electronics Conference and Conference on Lasers and Electro-Optics Pacific Rim 2011
(Optica Publishing Group, 2011),
paper C754

Fabrication and simulation of antireflective nanostructures on c-Si solar cells

Ming-Hsuan Kao, Ting-Gang Chen, Min-An Tsai, Hsin-Chu Chen, Fang-I Lai, Shou-Yi Kuo, Pei-Chen Yu, and Hao-Chung Kuo

Conference on Lasers and Electro-Optics/Pacific Rim 2011

Sydney Australia
28 August–1 September 2011
ISBN: 978-0-9775657-7-1

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M. Kao, T. Chen, M. Tsai, H. Chen, F. Lai, S. Kuo, P. Yu, and H. Kuo, "Fabrication and simulation of antireflective nanostructures on c-Si solar cells," in Proceedings of the International Quantum Electronics Conference and Conference on Lasers and Electro-Optics Pacific Rim 2011, (Optica Publishing Group, 2011), paper C754.

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Abstract

The enhanced photoelectric conversion is demonstrated in nanostructured photovoltaics using colloidal lithography and reactive-ion-etching (RIE) techniques. From the reflectance spectroscopy, trapezoid-cone arrays (TCAs) Si with SiNx passivation layer effectively suppress the reflection in the wavelength range from 400 nm to 1000 nm. The power conversion shows the TCAs Si solar cell with 120 nm thickness of SiNx passivation layer achieves 13.736%, which is 8.87% and 2.56% enhancement compared to the conventional KOH-textured photovoltaics and TCAs with 80-nm-thick SiNx, respectively. An optical simulation based on RCWA describes the optimized shape of nanostructure to further reduce reflectance for maximum light absorption.

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