Issue 22, 2024, Issue in Progress

Carbon nitride/polyimide porous film via an NIPS method with advanced dielectric and hydrophobicity properties

Abstract

Herein, an ultra-low dielectric porous polyimide (PPI) composite film was fabricated by non-solvent induced phase separation (NIPS). High-performance carbon nitride nanosheets grafted by heptadecafluoro-1,1,2,2-tetradecyl-trimethoxysilane (CNNF) were incorporated into the PPI film to enhance thermomechanical and hydrophobic properties. The effects of non-solvent and filler content on the porous morphology, dielectric properties, hydrophobicity and thermomechanical properties of films were investigated. The porous morphology of the CNNF/PPI film changed from the coexistence of pipe-like and spongy structure via H2O, to a tightly-stacked porous structure via MeOH as non-solvent. The dielectric constants ε′ of 0.5 wt%-CNNF/PPI(H2O) and 0.5 wt%-CNNF/PPI(MeOH) were 1.56 and 1.69 at 1 MHz, respectively, which were ∼50% lower than that of the original PI film (ε′ = 3.33). With the introduction of CNNF, the water contact angle (WCA) of CNNF/PPI(H2O) increased from 66° to 107° and that of CNNF/PPI(MeOH) increased from 92° to 120°. Simultaneously, the storage modulus E′ of 2 wt%-CNNF/PPI(MeOH) reached its highest value of ∼881 MPa, which was ∼350 MPa higher than that of PPI(MeOH), together with an enhancement in Tg. This method confirmed a promising prospect for the utilization of porous PI substrates in integrated circuits and microelectronic devices.

Graphical abstract: Carbon nitride/polyimide porous film via an NIPS method with advanced dielectric and hydrophobicity properties

Article information

Article type
Paper
Submitted
23 Feb 2024
Accepted
29 Apr 2024
First published
13 May 2024
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2024,14, 15270-15280

Carbon nitride/polyimide porous film via an NIPS method with advanced dielectric and hydrophobicity properties

W. Li, K. Li, W. Li, W. Gan and S. Song, RSC Adv., 2024, 14, 15270 DOI: 10.1039/D4RA01389A

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