Synergies and applications of polyimides featured low permittivity and high thermal conductivity

Synergies and applications of polyimides featured low permittivity and high thermal conductivity

The continuous upgrading of electronic technology has facilitated the integration and miniaturization of electronic and electrical equipment, as well as putting great pressure on the multifunctional demand for internal materials. Developing insulating materials with both low permittivity and high th...

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Veröffentlicht in:Journal of physics. D, Applied physics Applied physics, 2024-08, Vol.57 (33), p.332001
Hauptverfasser: Dong, Xiaodi, Zha, Jun-Wei
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Sprache:eng
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dielectric permittivity
polyimide
structure design
thermal conductivity
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container_issue 33
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container_title Journal of physics. D, Applied physics
container_volume 57
creator Dong, Xiaodi
Zha, Jun-Wei
description The continuous upgrading of electronic technology has facilitated the integration and miniaturization of electronic and electrical equipment, as well as putting great pressure on the multifunctional demand for internal materials. Developing insulating materials with both low permittivity and high thermal conductivity has become imperative. This perspective focuses on polyimide (PI), which is the top material of the polymer material pyramid, discusses the characteristic parameters that affect its dielectric property and thermal conductivity. A series of basic schemes to regulate the dielectric/thermal properties of PI are summarized, revealing the bottlenecks and drawbacks of the current research. Future development trends of PIs featured low permittivity-high thermal conductivity are anticipated, and novel ideas are proposed for the development of new generation of multifunctional PIs.
doi_str_mv 10.1088/1361-6463/ad4a83
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subjects dielectric permittivity
polyimide
structure design
thermal conductivity
title Synergies and applications of polyimides featured low permittivity and high thermal conductivity
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