Synthesis and characterization of UV-Curable pyrimidine-based Poly (Acrylate) and zirconium acrylate nanocomposite with high refractive index

Authors
Lee, Seung-HyunKim, Doo HunGoh, MunjuKim, Jeung GonYou, Nam-Ho
Issue Date
2021-06-16
Publisher
ELSEVIER SCI LTD
Citation
POLYMER, v.227
Abstract
Highly refractive polymers are widely used in the optics industry. They are typically synthesized as matrices containing relatively high refractive index inorganic fillers, resulting in transparent, practical, and useful thin materials. This research introduces novel photo-curable pyrimidine-based acrylate monomers containing aromatic groups or aliphatic groups with sulfur atoms. Diphenylacrylate sulfanyl-methylthio-pyrimidine (DPASMTP) and trisphenylacrylate-sulfanyl-pyrimidine (TPASP) were designed and synthesized for optical applications. The polymers were obtained after a simple photo-polymerization, and exhibited good thermal stabilities (Td 350) and high transmittance (>85% at lambda cutoff). All of the ZrA nanocomposites (NCs) showed welldispersed particles at the nanometer level, high refractive index (>1.68 at 637 nm) and very low birefringence (<0.0135 at 637 nm). The ZrA contents were correlated with the optical properties of the photo-cured polymer systems, and were confirmed to enhance the refractive index.
Keywords
POLY(PHENYLENE THIOETHER)S; HIGH TRANSPARENCY; HYBRID MATERIALS; OPTICAL FILMS; RESIN; COLORLESS; COATINGS; POLY(PHENYLENE THIOETHER)S; HIGH TRANSPARENCY; HYBRID MATERIALS; OPTICAL FILMS; RESIN; COLORLESS; COATINGS; High refractive index polymer; Optical polymer; Zirconium acrylate
ISSN
0032-3861
URI
https://pubs.kist.re.kr/handle/201004/116851
DOI
10.1016/j.polymer.2021.123847
Appears in Collections:
KIST Article > 2021
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