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A Thermally Stable, Infrared-Transparent High-Sulfur-Containing Polymer for High Aspect-Ratio Nanostructured MWIR Polarizer

Authors
Kang, MinjeongJang, WontaeLee, JunghyunKim, SanghyunLee, GyuwonChoi, KeonwooKim, Jun OhKu, ZahyunAhn, JunhyoungLim, HyungjunLim, JeewooWie, Jeong JaeIm, Sung Gap
Issue Date
Jul-2025
Publisher
Wiley - V C H Verlag GmbbH & Co.
Keywords
bilayer wire grid polarizer; high sulfur-content polymer (HSCP); MWIR polarizer; sulfur chemical vapor deposition (sCVD); thermal stability
Citation
Small, v.21, no.27, pp 1 - 11
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
Small
Volume
21
Number
27
Start Page
1
End Page
11
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/210219
DOI
10.1002/smll.202504090
ISSN
1613-6810
1613-6829
Abstract
Infrared (IR) polarizer is essential for thermal imaging applications such as mobility and military operations. High-sulfur-containing polymers have emerged as promising candidates for IR polarizers due to their mid-wave IR (MWIR) transparency, addressing the limitations of inorganic materials, including their brittleness and high cost. However, poor thermal stability and limited IR range restrict their applicability. This study introduces a glassy IR polarizer based on poly(sulfur-co-hexavinyl disiloxane) (pSHVDS), a highly crosslinked sulfur-rich polymer synthesized via sulfur chemical vapor deposition (sCVD). Self-crosslinking of pSHVDS at high temperatures provided thermal stability during nanoimprint lithography, enabling the fabrication of high-fidelity nano-grating patterns (400 nm pitch, 150 nm width, 300 nm height). The broad transmittance and high aspect ratio of the nanopattern enabled the glassy-pSHVDS MWIR polarizer to achieve over 50% transmittance of transverse magnetic field (TTM) and an extinction ratio (ER) exceeding 6000 across a broad IR range (3-8 mu m). An additional pSHVDS anti-reflection coating further enhanced TTM to 84% and ER to 7200 at a wavelength of 4 mu m, the highest ER reported for organic MWIR polarizers to date. The polarizer maintained its performance after 24 h at 100 degrees C, demonstrating exceptional thermal stability. These findings underscore the potential of glassy pSHVDS-based polarizers for IR applications.
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