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Property Enhancement of Direct-Spun Carbon Nanotube Fibers via Polyethylene Glycol Infiltration

Authors
Choi, Jung GiPark, Jong WooLi, TaoAhn, Ji HoonJeong, YoungjinKim, Seon Jeong
Issue Date
Sep-2025
Publisher
KOREAN FIBER SOC
Keywords
Direct-spun carbon nanotube yarn; Carbon nanotube; Enhanced carbon fiber; Polyethylene glycol; Composite
Citation
FIBERS AND POLYMERS, v.26, no.9, pp 3911 - 3918
Pages
8
Indexed
SCIE
SCOPUS
KCI
Journal Title
FIBERS AND POLYMERS
Volume
26
Number
9
Start Page
3911
End Page
3918
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211468
DOI
10.1007/s12221-025-01080-2
ISSN
1229-9197
1875-0052
Abstract
Carbon nanotube (CNT) fiber is a promising material for various applications, such as wearable devices, energy harvesting, energy storage, and artificial muscles. The floating catalyst chemical vapor deposition (FCCVD) method allows mass production of CNT fibers. However, the mechanical and electrical properties of the CNTs fabricated using the FCCVD method are inferior to those of the CNT fibers fabricated using other methods, such as wet spinning and spinnable CNT forests. Therefore, suitable methods are required to improve the mechanical properties and electrical conductivity of CNT fibers obtained using the FCCVD method. One strategy is infiltration of a polymer into the CNT fiber. In this study, polyethylene glycol was infiltrated into pristine CNT fibers and formed hydrogen bonds with the oxygen present on surface of CNTs from FCCVD method. Solvent evaporation resulted in the formation of dense CNT fibers, which featured more connections among the CNTs. The polymer-incorporated CNT fiber exhibited high toughness, ultimate strength, and electrical conductivity and can thus be employed in various real-life applications.
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COLLEGE OF ENGINEERING (서울 바이오메디컬공학전공)
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