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Molecular Crystals and Liquid Crystals Volume 768, 2024 - Issue 12
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RESEARCH ARTICLES

Fabrication of hybrid polyimide composites containing Ladder-like poly(phenyl-co-glycidoxypropyl)silsesquioxane)

Ho-Jin Yooa Department of Polymer Science and Engineering/Department of IT-Energy Convergence (BK21 PLUS), Korea National University of Transportation, Chungju, Chungbuk, Korea;View further author information
,
Tae-Eun Kima Department of Polymer Science and Engineering/Department of IT-Energy Convergence (BK21 PLUS), Korea National University of Transportation, Chungju, Chungbuk, Korea;View further author information
,
Seung-Hun Leea Department of Polymer Science and Engineering/Department of IT-Energy Convergence (BK21 PLUS), Korea National University of Transportation, Chungju, Chungbuk, Korea;View further author information
,
Ki-Young Kimb Department of Textile Convergence of Biotechnology & Nanotechnology, Korea Institute of Industrial Technology, Ansan, Gyeonggido, KoreaView further author information
,
Jung-Hyurk Lima Department of Polymer Science and Engineering/Department of IT-Energy Convergence (BK21 PLUS), Korea National University of Transportation, Chungju, Chungbuk, Korea;View further author information
&
Kyung-Min Kima Department of Polymer Science and Engineering/Department of IT-Energy Convergence (BK21 PLUS), Korea National University of Transportation, Chungju, Chungbuk, Korea;Correspondence[email protected]
View further author information
Pages 497-508 | Published online: 20 Jun 2024
 
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Abstract

Ladder-like structured poly(phenyl-co-glycidoxypropyl) silsesquioxanes with different ratios of phenyl to glycidyl group (LPS64 and LPS 82) were synthesized using simple hydrolysis reaction followed by condensation polymerization of phenyltrimethoxysilane (PTMS) and (3-glycidyloxypropyl)trimethoxysilane (GPTMS). Two series of hybrid polyimide composites (PI/LPS64 and PI/LPS82) with different contents of LPS (10, 20, and 30 wt%) were prepared by the chemical reaction of epoxy groups in LPS64 or LPS82 and the terminal amine groups in poly(amic acid). The dielectric constant (k) of hybrid PI composites (k = 1.3) was lower than that of pure polyimide (k = 2.9) and the degree of roughness was increased according to the increase of LPS contents. The dispersion of LPS in the PI matrix was improved due to the chemical bonding between LPS and PI. The thermal stability of PI/LPS82 was higher than that of PI/LPS64 due to the enhanced π-π stacking between PI matrix and LPS82 with more phenyl groups as compared to LPS64.

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

This research was supported by the Korea National University of Transportation in 2023.

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