Paths to light trapping in thin film GaAs solar cells

Authors
Xiao, JianlingFang, HanlinSu, RongbinLi, KezhengSong, JindongKrauss, Thomas F.Li, JuntaoMartins, Emiliano R.
Issue Date
2018-03-19
Publisher
OPTICAL SOC AMER
Citation
OPTICS EXPRESS, v.26, no.6, pp.A341 - A351
Abstract
It is now well established that light trapping is an essential element of thin film solar cell design. Numerous light trapping geometries have already been applied to thin film cells, especially to silicon-based devices. Less attention has been paid to light trapping in GaAs thin film cells, mainly because light trapping is considered less attractive due to the material's direct bandgap and the fact that GaAs suffers from strong surface recombination, which particularly affects etched nanostructures. Here, we study light trapping structures that are implemented in a high-bandgap material on the back of the GaAs active layer, thereby not perturbing the integrity of the GaAs active layer. We study photonic crystal and quasi-random nanostructures both by simulation and by experiment and find that the photonic crystal structures are superior because they exhibit fewer but stronger resonances that are better matched to the narrow wavelength range where GaAs benefits from light trapping. In fact, we show that a 1500 nm thick cell with photonic crystals achieves the same short circuit current as an unpatterned 4000 nm thick cell. These findings are significant because they afford a sizeable reduction in active layer thickness, and therefore a reduction in expensive epitaxial growth time and cost, yet without compromising performance. (C) 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement
Keywords
EPITAXIAL LIFT-OFF; HIGH-EFFICIENCY; WAFER; OPTOELECTRONICS; NANOSTRUCTURES; PHOTOVOLTAICS; DESIGN; EPITAXIAL LIFT-OFF; HIGH-EFFICIENCY; WAFER; OPTOELECTRONICS; NANOSTRUCTURES; PHOTOVOLTAICS; DESIGN
ISSN
1094-4087
URI
https://pubs.kist.re.kr/handle/201004/121594
DOI
10.1364/OE.26.00A341
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KIST Article > 2018
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