Fabrication of quasi-hexagonal Si nanostructures and its application for flexible crystalline ultrathin Si solar cells

Authors
Lee, YoungseokWoo, YeeunLee, Doh-KwonKim, Inho
Issue Date
2020-09-15
Publisher
PERGAMON-ELSEVIER SCIENCE LTD
Citation
SOLAR ENERGY, v.208, pp.957 - 965
Abstract
Optimally designed Si nanostructures can serve as effective light trapping structures for flexible crystalline ultrathin Si solar cells. In this study, we develop a unique quasi-hexagonal inverted nano-pyramid in a hexagonal array, fabricated by a combined process of nanosphere lithography and wet etching. Self-assembled silica nanoparticles were deposited on Si wafers by spin coating, followed by deposition of triangular metal nanodisks in a hexagonal array. The metal nanodisks were used as a wet etch mask in an alkaline solution to create the quasi-hexagonal Si nanostructures. We investigated a temporal evolution of the Si nanostructures with increasing the etch time to optimize optical performances. The newly developed nanostructures take a quasi-hexagonal inverted pyramid, which provides geometrically high compatibility with the self-assembled monolayers in a hexagonal array. We incorporated these quasi-hexagonal nanostructures to the flexible crystalline ultrathin Si solar cells, and the novel nanostructures exhibited optical performances comparable to conventional micro-pyramid textures while showing the enhanced mechanical flexibility of the ultrathin Si-based solar cells.
Keywords
ELECTRON-BEAM LITHOGRAPHY; NANOSPHERE LITHOGRAPHY; NANOIMPRINT LITHOGRAPHY; SILICON; ARRAYS; NANOFABRICATION; SI(100); ELECTRON-BEAM LITHOGRAPHY; NANOSPHERE LITHOGRAPHY; NANOIMPRINT LITHOGRAPHY; SILICON; ARRAYS; NANOFABRICATION; SI(100); Nanosphere lithography; Quasi-hexagonal nanostructures; Light trapping; Ultrathin Si solar cell
ISSN
0038-092X
URI
https://pubs.kist.re.kr/handle/201004/118121
DOI
10.1016/j.solener.2020.08.063
Appears in Collections:
KIST Article > 2020
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