AFM-IR study of interfacial nanostructures in high-temperature dilute nanocomposites

The dilute nanocomposite strategy facilitates a promising route for high-temperature polymer dielectrics to achieve high dielectric constant and energy density, robust breakdown strength, and low loss. The dielectric enhancement of the dilute nanocomposites strongly ties to the topological condition...

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Published in:Applied physics letters 2024-04, Vol.124 (16)
Main Authors: Zhu, Wenyi, Rui, Guanchun, Wetherington, Maxwell Turner, Lee, Jongcheol, Kim, Seong H., Zhang, Q. M.
Format: Article
Language:English
Subjects:
Dielectric breakdown
Dielectric strength
Dilution
High temperature
Morphology
Nanocomposites
Polymers
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container_issue 16
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container_title Applied physics letters
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creator Zhu, Wenyi
Rui, Guanchun
Wetherington, Maxwell Turner
Lee, Jongcheol
Kim, Seong H.
Zhang, Q. M.
description The dilute nanocomposite strategy facilitates a promising route for high-temperature polymer dielectrics to achieve high dielectric constant and energy density, robust breakdown strength, and low loss. The dielectric enhancement of the dilute nanocomposites strongly ties to the topological conditions of the nanofiller–polymer interface. Here, atomic force microscopy-based infrared spectroscopy was employed to observe the interfacial region of a high-temperature poly(arylene ether urea) (PEEU) dilute nanocomposite directly. The experimental results showed that the nanoparticles induce morphological changes in PEEU, and the interface region extends over 150 nm away from the nanofiller surfaces. Such nano-morphology changes are highly indicative of generating a large enhancement of the dielectric performance in the PEEU dilute nanocomposite.
doi_str_mv 10.1063/5.0205468
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subjects Dielectric breakdown
Dielectric strength
Dilution
High temperature
Morphology
Nanocomposites
Polymers
title AFM-IR study of interfacial nanostructures in high-temperature dilute nanocomposites
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