Carbon nanotube fibers with high specific electrical conductivity: Synergistic effect of heteroatom doping and densification
- Authors
- Hong, Seung ki; Nam, Jung Tae; Park, Seung gyu; Lee, Dongju; Park, Min; Lee, Dong Su; Kim, Nam Dong; Kim, Dae-Yoon; Ku, Bon Cheol; Kim, Yoong Ahm; Hwang, Jun Yeon
- Issue Date
- 2021-10
- Publisher
- Elsevier Ltd
- Citation
- Carbon, v.184, pp.207 - 213
- Abstract
- Low contact resistance of carbon nanotube (CNT) fibers are fundamental component to improve the electrical transport properties of CNT fibers. To reduce the contact resistance of CNT fibers, we have demonstrated synergistic effect of macroscopic densification in combination with heteroatom doping. Boron and nitrogen atoms were introduced into the hexagonal carbon lattice of the CNTs through judicious combination of high temperature thermal doping and plasma treatment. Chlorosulfonic acid (CSA) was chosen to provide selectively quaternary nitrogen on the sidewall of the CNTs. During this process, densification of the CNT fibers also proceeded, and consequently reduced the hopping or tunneling distance for inter-CNT electron transfer. As a result, we achieved remarkable electrical conductivity of the CNT fibers as high as 5,896 Sm2/kg. The mechanism study by which heterogeneous conduction model proved the decrease of the electrical barrier height of the CNT fibers. These results provide a substantial step towards the use of CNT fibers as conductive materials. ? 2021 Elsevier Ltd
- Keywords
- Conductive materials; Contact resistance; Densification; Electric conductivity; Fibers; Plasma applications; Yarn; Boron atom; Carbon nanotube fibers; Densifications; Electrical conductivity; Electrical transport properties; Fundamental component; Heteroatom doping; Heteroatoms; Specific electrical conductivity; Synergistic effect; Carbon nanotubes; Carbon nanotube fibers; Densification; Electrical conductivity; Heteroatom doping
- ISSN
- 0008-6223
- URI
- https://pubs.kist.re.kr/handle/201004/116347
- DOI
- 10.1016/j.carbon.2021.08.024
- Appears in Collections:
- KIST Article > 2021
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