Title: Experimental demonstration of broadband solar absorption beyond the lambertian limit in certain thin silicon photonic crystals
Authors: Hsieh, Mei-Li
Kaiser, Alex
Bhattacharya, Sayak
John, Sajeev
Lin, Shawn-Yu
光電學院
光電工程學系
College of Photonics
Department of Photonics
Issue Date: 16-Jul-2020
Abstract: The tantalizing possibility of 31% solar-to-electric power conversion efficiency in thin film crystalline silicon solar cell architectures relies essentially on solar absorption well beyond the Lambertian light trapping limit (Bhattacharya and John in Nat Sci Rep 9:12482, 2019). Up to now, no solar cell architecture has exhibited above-Lambertian solar absorption, integrated over the broad solar spectrum. In this work, we experimentally demonstrate two types of photonic crystal (PhC) solar cells architectures that exceed Lambertian light absorption, integrated over the entire 300-1,200 nm wavelength band. These measurements confirm theoretically predicted wave-interference-based optical resonances associated with long lifetime, slow-light modes and parallel-to-interface refraction. These phenomena are beyond the realm of ray optics. Using two types of 10-mu m thick PhC's, first an Inverted Pyramid PhC with lattice constant a=2,500 nm and second a Teepee PhC with a=1,200 nm, we observe solar absorption well beyond the Lambertian limit over lambda =950-1,200 nm. Our absorption measurements correspond to the maximum-achievable-photocurrent-density (MAPD), under AM1.5G illumination at 4-degree incident angle, 41.29 and 41.52 mA/cm(2) for the Inverted Pyramid and Teepee PhC, respectively, in agreement with wave-optics, numerical simulations. Both of these values exceed the MAPD (=39.63 mA/cm(2)) corresponding to the Lambertian limit for a 10-mu m thick silicon for solar absorption over the 300-1,200 nm band.
URI: http://dx.doi.org/10.1038/s41598-020-68704-w
http://hdl.handle.net/11536/155210
ISSN: 2045-2322
DOI: 10.1038/s41598-020-68704-w
Journal: SCIENTIFIC REPORTS
Volume: 10
Issue: 1
Begin Page: 0
End Page: 0
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