Highly Conductive Para-Aramid Fabric Prepared Via Bioinspired Poly(dopamine) Functionalization After an Improved Etching Process

The formation of a metallic layer on fiber substrates has aroused great interest in recent years due to the application of metal-deposited fiber composite materials in many fields, such as microelectronics, aerospace, and military materials. To achieve sustained high conductivity throughout the enti...

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Bibliographic Details
Published in:Fibers and polymers 2024, 25(6), , pp.2107-2116
Main Authors: Zhao, Gege, Jin, Zhehai, Zhang, Xinya, Li, Chengcheng, Su, Xing, Geng, Qiuju, Zhao, Yaping
Format: Article
Language:English
Subjects:
Chemistry
Chemistry and Materials Science
Composite materials
Deposition
Dopamine
Electroless plating
Etching
Fabrics
Fiber composites
Fibers
Low temperature
Low temperature resistance
Palladium
Polymer Sciences
Regular Article
Service life
Silver
Substrates
Tensile strength
Textile composites
섬유공학
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Summary:The formation of a metallic layer on fiber substrates has aroused great interest in recent years due to the application of metal-deposited fiber composite materials in many fields, such as microelectronics, aerospace, and military materials. To achieve sustained high conductivity throughout the entire service life of conductive fibers, it is an essential step to modify the surface of substrates to improve the adhesion between the fiber substrate and the conductive structure. Herein, a practical and feasible two-step approach consisting of mixed solution etching and dopamine self-polymerization was proposed to enhance electroless silver deposition on para-aramid fabrics. The hydrophilicity, surface morphology, infrared spectroscopy, and tensile strength of the fibers after etching in different solutions were compared. The modification conditions of etched fibers with polydopamine before electroless silver deposition were explored by comparing the square resistance and washing resistance of the conductive fabrics. With the assistance of the metal-binding ability of polydopamine, a homogeneous and compact silver layer was obtained on para-aramid fabrics by palladium-free activation electroless plating. The composite fabrics exhibited a low electrical resistivity of 0.052 Ω/sq and satisfactory resistance stability under high/low-temperature, ice, and flame environments, as well as in acids, alkalis, and organic solutions.
ISSN:1229-9197
1875-0052
DOI:10.1007/s12221-024-00581-w