Electrochemical Deposition of Copper on Polymer Fibers

Abstract: In this study, we report the fabrication of functional complex fibers, which have been studied widely globally for numerous applications. Here, we fabricated conductive complex fibers with antibacterial properties by coating metal ions on the surface of plastic (polypropylene) fibers using the electroless and electrochemical deposition. First, we polished the polypropylene melt-blown fiber surface and obtained an absorbing Pd seed layer on its surface. Subsequently, we substituted the Pd with Cu. Bis-3-sulfopr… Show more

“…10,11 Electroconductive textile fabrics are often prepared using metal-coated yarns. Electroconductive coatings on yarns or fibers can be produced by electroplating, [12][13][14] electroless plating, 15 spray coating, 16 and sputter coating 17,18 with metals such as silver, copper, nickel, gold, zinc, chromium, iron, aluminum, and cadmium. In addition, such metals are used in fiber and filament forms to produce electro-conductive yarns or threads.…”

Textile-based weft knit strain sensor: Experimental investigation of the effect of stretching on electrical conductivity and electromagnetic shielding

“…10,11 Electroconductive textile fabrics are often prepared using metal-coated yarns. Electroconductive coatings on yarns or fibers can be produced by electroplating, [12][13][14] electroless plating, 15 spray coating, 16 and sputter coating 17,18 with metals such as silver, copper, nickel, gold, zinc, chromium, iron, aluminum, and cadmium. In addition, such metals are used in fiber and filament forms to produce electro-conductive yarns or threads.…”

Textile-based weft knit strain sensor: Experimental investigation of the effect of stretching on electrical conductivity and electromagnetic shielding