Facile and cost-effective strategy for fabrication of polyamide 6 wrapped multi-walled carbon nanotube via anionic melt polymerization of epsilon-caprolactam

Authors
Jang, Ji-unLee, Hun SuKim, Jae WooKim, Seong YunKim, Seong HunHwang, InwoogKang, Byung JooKang, Myung Koo
Issue Date
2019-10-01
Publisher
ELSEVIER SCIENCE SA
Citation
CHEMICAL ENGINEERING JOURNAL, v.373, pp.251 - 258
Abstract
There is a growing demand for the development of a melt process-based nanocomposite manufacturing process capable of minimizing the incorporation of expensive carbon nanotubes (CNTs) by inducing a uniform dispersion of multiwalled CNTs (MWNTs). In this study, we proposed a nanocomposite manufacturing process that includes both physical particle mixing using high-speed rotation and anionic polymerization of e-caprolactam (CL) to induce a uniform dispersion of MWNTs. MWNTs were uniformly dispersed by powder mixing and then wrapped with polyamide 6 polymers by in-situ polymerization of CL. The synergistic effect of the two sub-processes resulted in an enhanced dispersion of MWNTs and prevented aggregation of the MWNTs. The composites fabricated by the proposed process exhibited electrical conductivities of 4.49 x 10(-5) S/m and 1.45 x 10 S/m at 1 wt% and 3 wt% MWNTs, respectively, indicating that by applying the proposed process it is possible to incorporate a smaller amount of MWNT to achieve electrical conductivities applicable for electrostatic discharge (ESD) (> 1 X 10(-5) S/m) and electromagnetic interference shielding effectiveness (EMI SE) (> 10 S/m) applications. An ESD chip tray and EMI SE mobile phone case were fabricated using the prepared composite, and it was verified that the ESD and EMI SE performances can be realized.
Keywords
INTERFERENCE SHIELDING PROPERTIES; ELECTRICAL-CONDUCTIVITY; THERMAL-CONDUCTIVITY; MECHANICAL-PROPERTIES; THEORETICAL APPROACH; ENHANCED DISPERSION; COMPOSITES; NANOCOMPOSITES; PERCOLATION; FUNCTIONALIZATION; INTERFERENCE SHIELDING PROPERTIES; ELECTRICAL-CONDUCTIVITY; THERMAL-CONDUCTIVITY; MECHANICAL-PROPERTIES; THEORETICAL APPROACH; ENHANCED DISPERSION; COMPOSITES; NANOCOMPOSITES; PERCOLATION; FUNCTIONALIZATION; Multi-walled carbon nanotube; Anionic polymerization; In-situ polymerization; Polymer wrapping; Composite; Electrical conductivity
ISSN
1385-8947
URI
https://pubs.kist.re.kr/handle/201004/119478
DOI
10.1016/j.cej.2019.05.044
Appears in Collections:
KIST Article > 2019
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