Gas infiltration of bromine to enhance the electrical conductivity of carbon nanotube fibers

Highly conducting and lightweight wires can be created based on carbon nanotube (CNT) assembly materials, where the inter-tube electron transport plays a key role. Here we report a gas infiltration of bromine to improve the electrical properties of CNT fibers, owing to the enhanced inter-tube electr...

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Bibliographic Details
Published in:Materials & design 2018-12, Vol.159, p.138-144
Main Authors: Wang, Ping, Liu, Dandan, Zou, Jingyun, Ye, Yuanhang, Hou, Ligan, Zhao, Jingna, Men, Chuanling, Zhang, Xiaohua, Li, Qingwen
Format: Article
Language:English
Subjects:
Bromine
Carbon nanotube
Electrical conductivity
Fiber
Gas infiltration
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Summary:Highly conducting and lightweight wires can be created based on carbon nanotube (CNT) assembly materials, where the inter-tube electron transport plays a key role. Here we report a gas infiltration of bromine to improve the electrical properties of CNT fibers, owing to the enhanced inter-tube electron hopping. Although Br infiltration is mainly a physical absorption process, with just a little fraction to form covalent bonding with the defect of CNTs, it can induce electron transfer from CNT to Br. Together with the densification effect, there are more pathways for interfacial electron transport between the CNTs. As a result, the infiltration efficiently increases the electrical conductivity from 2.66 × 105 to 1.63 × 106 S/m, by 6-fold. Based on the high performance stability, the composite fiber can be used as lightweight and functional conductor for wearable smart devices. [Display omitted] •Bromine infiltration increases the electrical conductivity of carbon nanotube fiber.•Interfacial electron transfer from carbon to bromine makes carbon nanotubes p-doped.•Bromine-infiltrated carbon nanotube fiber can be used as a functional wire.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2018.08.030