Sub-30 nm 2D Perovskites Patterns via Block Copolymer Guided Self-Assembly for Color Conversion Optical Polarizer

Authors
Park, YoujinHan, HyowonLee, HyeokjungKim, SoheePark, Tae HyunJang, JihyeKim, GwanhoPark, YeminLee, JiyeonKim, DongjunKim, JiwonJung, Yeon SikJeong, BeomjinPark, Cheolmin
Issue Date
2023-11
Publisher
Wiley - V C H Verlag GmbbH & Co.
Citation
Small, v.19, no.47
Abstract
Despite the remarkable advances made in the development of 2D perovskites suitable for various high-performance devices, the development of sub-30 nm nanopatterns of 2D perovskites with anisotropic photoelectronic properties remains challenging. Herein, a simple but robust route for fabricating sub-30 nm 1D nanopatterns of 2D perovskites over a large area is presented. This method is based on nanoimprinting a thin precursor film of a 2D perovskite with a topographically pre-patterned hard poly(dimethylsiloxane) mold replicated from a block copolymer nanopattern consisting of guided self-assembled monolayered in-plane cylinders. 1D nanopatterns of various 2D perovskites (A & PRIME;(2)MA(n)(-1)Pb(n)X(3)(n)(+1),A & PRIME; = BA, PEA, X = Br, I) are developed; their enhanced photoluminescence (PL) quantum yields are approximately four times greater than those of the corresponding control flat films. Anisotropic photocurrent is observed because 2D perovskite nanocrystals are embedded in a topological 1D nanopattern. Furthermore, this 1D metal-coated nanopattern of a 2D perovskite is employed as a color conversion optical polarizer, in which polarized PL is developed. This is due to its capability of polarization of an incident light arising from the sub-30 nm line pattern, as well as the PL of the confined 2D perovskite nanocrystals in the pattern.
Keywords
WIRE GRID POLARIZERS; HALIDE PEROVSKITES; SOLAR-CELLS; anisotropic photodetection; block copolymer guided self-assembly; nanoimprinting; photoluminescent optical polarizers; sub-30 nm nanopattern of 2D perovskites
ISSN
1613-6810
URI
https://pubs.kist.re.kr/handle/201004/113155
DOI
10.1002/smll.202300568
Appears in Collections:
KIST Article > 2023
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