Negative Correlation Between Thermal and Electrical Conductivity in Epsilon‐Negative Nanocomposites

Zaixin Wei; Yao Liu; Yan Zhang; Kallioniemi Leevi Aleksanteri; Xiangru Qi; Zidong Zhang; Zhongyang Wang; Weibo Gao; Runhua Fan

doi:10.1002/aelm.202300614

Advanced Electronic Materials (Apr 2024)

Negative Correlation Between Thermal and Electrical Conductivity in Epsilon‐Negative Nanocomposites

Zaixin Wei,
Yao Liu,
Yan Zhang,
Kallioniemi Leevi Aleksanteri,
Xiangru Qi,
Zidong Zhang,
Zhongyang Wang,
Weibo Gao,
Runhua Fan

Affiliations

Zaixin Wei: Key Laboratory for Liquid‐Solid Structural Evolution and Processing of Materials Shandong University Jinan 250061 China
Yao Liu: Key Laboratory for Liquid‐Solid Structural Evolution and Processing of Materials Shandong University Jinan 250061 China
Yan Zhang: School of Physical and Mathematical Sciences Nanyang Technological University Nanyang 639798 Singapore
Kallioniemi Leevi Aleksanteri: School of Physical and Mathematical Sciences Nanyang Technological University Nanyang 639798 Singapore
Xiangru Qi: Key Laboratory for Liquid‐Solid Structural Evolution and Processing of Materials Shandong University Jinan 250061 China
Zidong Zhang: Key Laboratory for Liquid‐Solid Structural Evolution and Processing of Materials Shandong University Jinan 250061 China
Zhongyang Wang: State Key Lab of Metal Matrix Composites School of Materials Science and Engineering Shanghai Jiao Tong University Shanghai 200240 China
Weibo Gao: School of Physical and Mathematical Sciences Nanyang Technological University Nanyang 639798 Singapore
Runhua Fan: College of Ocean Science and Engineering Shanghai Maritime University Shanghai 201306 China

DOI: https://doi.org/10.1002/aelm.202300614
Journal volume & issue: Vol. 10, no. 4
pp. n/a – n/a

Abstract

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Abstract Epsilon‐negative materials (ENMs) hold promise for the advancement of the next generation of electronic devices. Most epsilon‐negative materials strongly correlate with metal properties, which limits their applications in electronic packaging. Instead, achieving a negative permittivity in the insulating state is expected to show the decoupling of electrical and thermal conductivities, and experimental demonstration of this behavior is lacking. In this study, multi‐walled carbon nanotubes (MWCNTs)@polydopamine (PDA)‐silver/polyimide (PI) nanocomposites are engineered to achieve weakly negative permittivity, which is attributed to the localized plasma oscillations. The PDA layer and nano‐Ag are exploited to confine electrons with MWCNTs for improving energy transport while perturbing directional current, thereby realizing high thermal conductivity and low electrical conductivity. This work provides insights into the fundamental nature of heat and charge transport in epsilon‐negative systems.

Published in Advanced Electronic Materials

ISSN: 2199-160X (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Electric apparatus and materials. Electric circuits. Electric networks; Science: Physics
Website: https://onlinelibrary.wiley.com/journal/2199160x

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