Improved optical transmission and current matching of a triple-junction solar cell utilizing sub-wavelength structures

Sub-wavelength antireflective structures are fabricated on a silicon nitride passivation layer of a Ga₀.₅In₀.₅P/GaAs/Ge triple-junction solar cell using polystyrene nanosphere lithography followed by anisotropic etching. The fabricated structures enhance optical transmission in the ultraviolet wavel...

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Veröffentlicht in:	Optics express 2010-09, Vol.18 Suppl 3 (S3), p.A308-A313
Hauptverfasser:	Chiu, M-Y, Chang, C-H, Tsai, M-A, Chang, F-Y, Yu, Peichen
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Sprache:	eng
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container_title	Optics express
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creator	Chiu, M-Y Chang, C-H Tsai, M-A Chang, F-Y Yu, Peichen
description	Sub-wavelength antireflective structures are fabricated on a silicon nitride passivation layer of a Ga₀.₅In₀.₅P/GaAs/Ge triple-junction solar cell using polystyrene nanosphere lithography followed by anisotropic etching. The fabricated structures enhance optical transmission in the ultraviolet wavelength range, compared to a conventional single-layer antireflective coating (ARC). The transmission improvement contributes to an enhanced photocurrent, which is also verified by the external quantum efficiency characterization of the fabricated solar cells. Under one-sun illumination, the short-circuit current of a cell with sub-wavelength structures is enhanced by 46.1% and 3.4% due to much improved optical transmission and current matching, compared to cells without an ARC and with a conventional SiN(x) ARC, respectively. Further optimizations of the sub-wavelength structures including the periodicity and etching depth are conducted by performing comprehensive calculations based on a rigorous couple-wave analysis method.
doi_str_mv	10.1364/OE.18.00A308
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title	Improved optical transmission and current matching of a triple-junction solar cell utilizing sub-wavelength structures
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