Tailoring Polyimide Chain by Melamine-Cyanurate Supramolecule via a Molecular Welding Strategy Achieving Superior Thermal Conductivity

Tailoring Polyimide Chain by Melamine-Cyanurate Supramolecule via a Molecular Welding Strategy Achieving Superior Thermal Conductivity

Polyimide (PI) films are widely used in printed circuit boards, electronic packaging, interlayer media, display panels, and other fields. Improving the thermal conductivity of PI film is of great significance to promote effective heat removal in microelectronic devices. Herein, melamine cyanurate (M...

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Bibliographic Details
Published in:Journal of thermal science Vol. 32; no. 4; pp. 1558 - 1568
Main Authors: Zhao, Chenggong, Li, Yifan, Ma, Manping, Kan, Ankang, Xie, Huaqing, Yu, Wei
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-07-2023
Springer Nature B.V
Subjects:
Chemical bonds
Circuit boards
Classical and Continuum Physics
Conduction heating
Conductive heat transfer
Conjugation
Electronic packaging
Engineering Fluid Dynamics
Engineering Thermodynamics
Heat and Mass Transfer
Heat conductivity
Hydrogen bonds
Interlayers
Melamine
Microelectronics
Physics
Physics and Astronomy
Polyamide resins
Thermal conductivity
Welding
polyimide film
molecular chain arrangement
heat dissipation
intermolecular interaction
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Summary:Polyimide (PI) films are widely used in printed circuit boards, electronic packaging, interlayer media, display panels, and other fields. Improving the thermal conductivity of PI film is of great significance to promote effective heat removal in microelectronic devices. Herein, melamine cyanurate (MC) with multiple hydrogen bonds was designed and introduced into water-soluble polyamide acid (Ws-PAA) solution via an in-situ co-precipitation method. The MC supramolecule forms a chemical bond at the end of the PI chain, while also confines the adjacent chains through hydrogen bonds and π - π conjugation, functioning as a tailor to improve the chain arrangement via this molecular welding strategy. The tailored PI/MC films exhibit anisotropic thermal conductivity (TC): the in-plane TC can reach 0.93 W/(mK) while the through-plane TC is 0.60 W/(mK). Micromorphology and structural characterizations confirm the formation of complete heat conduction pathways. The developed films also show potential application prospects functioning as heat dissipation media in microelectronic devices.
ISSN:1003-2169
1993-033X
DOI:10.1007/s11630-023-1810-2