Structure and properties of carbon intercalated halloysite and its organosilicone hybrid film with low dielectric constant

Due to its hollow structure, halloysite has been considered for owning the potential of application in preparing low dielectric constant material. However its polarity has suppressed such potential and raised the dielectric constant of its polymeric composite. In this study, the non-polar carbon int...

Full description

Saved in:
Bibliographic Details
Published in:Materials & design 2017-08, Vol.128, p.56-63
Main Authors: Mo, Jinpeng, Ma, Wenshi, Zhang, Wencheng, Yuan, Jinfang
Format: Article
Language:English
Subjects:
Crystalline structure
Halloysite
Intercalation
Low dielectric constant
Organosilicone hybrid film
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Due to its hollow structure, halloysite has been considered for owning the potential of application in preparing low dielectric constant material. However its polarity has suppressed such potential and raised the dielectric constant of its polymeric composite. In this study, the non-polar carbon intercalated halloysite (C-HNT) was successfully prepared via in-situ polymerization and thermal treatments. Characterizations of the carbon intercalated halloysite confirmed that acrylonitrile and acrylamide as monomers had been intercalated and co-polymerized between the halloysite layers. The copolymer carbonized at 600°C under nitrogen atmosphere with the lumen of halloysite being preserved and water being eliminated. A series of carbon intercalated halloysites/organosilicone hybrid films were prepared via sol-gel process, and their hydrophobicity, thermal property, mechanical property and dielectric property were characterized. The results showed that the present of carbon intercalated halloysite strengthened the hydrophobicity, thermal property, mechanical property of the hybrid film. The lowest dielectric constant of the hybrid film samples was 2.46 at 1MHz. It reveals that the intercalated process suppresses the polarity of halloysite and revives halloysite's great potential for being used as low dielectric constant material. [Display omitted] •The non-polar carbon intercalated halloysite was fabricated.•The SAED patterns and XRD demonstrate that the crystalline structure of halloysite had changed after the intercalation.•The condition of Si–O–Si network before and after the intercalation is discussed via FTIR and 29Si MAS NMR.•The effects of the presence of C-HNT on hybrid films’ properties are fully discussed.•The lowest dielectric constant of the hybrid film samples was 2.46 at 1MHz.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2017.04.067