High-responsivity broadband photodetection of an ultra-thin In2S3/CIGS heterojunction on steel
(2021) Optics Letters — Vol. 46, n° 10, p. 2288-2291 (2021)
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- Cu(In,Ga)Se2 (CIGS) is a promising light harvesting material for large-area broadband photodetection, but it has been rarely studied up to now. Here an In2S3/CIGS heterojunction photodiode on steel is shown to be highly broadband photo-sensitive, with a photoresponsivity over 0.8 A/W, an external quantum efficiency over 100%, and a detectivity over 8×1010 Jones from 505 to 910nm under a reverse bias of 1 V. Moreover, the CIGS photodiode exhibits an outstanding weak light detection ability (i.e., at light power density of 20µW/cm2), reaching a record responsivity of 2.06 A/W, an impressive EQE of 293%, and a good detectivity of 2.3×1011 Jones at 870 nm under 1 V reverse bias. Importantly, the CIGS photodiode, working as a self-powered photodetector, under 0 V, shows a record detectivity of ∼3.4×1012 Jones with a high responsivity of ∼0.44A/W and a high EQE of ∼63%, at 870 nm.
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Zeng, X., Lontchi Jioleo, J., Zhukova, M., Fourdrinier, L., Qadir, I., Ren, Y., Niemi, E., Li, G., & Flandre, D. (2021). High-responsivity broadband photodetection of an ultra-thin In2S3/CIGS heterojunction on steel. Optics Letters, 46(10), 2288-2291. https://doi.org/10.1364/OL.423999 (Original work published 2021)