Environmentally Friendly Protective Coating for Electrically Conductive Yarns Using in Smart Textiles

Böhmer, Carola H.; Warncke, Mareen N.; Böhnke, Philippa Ruth Christine; Nocke, Andreas; Mersch, Johannes; Kruppke, Iris; Cherif, Chokri

doi:10.4028/p-ah5mgx

KEM

2024

DOI: 10.4028/p-ah5mgx

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Environmentally Friendly Protective Coating for Electrically Conductive Yarns Using in Smart Textiles

Carola H. Böhmer,

Mareen N. Warncke,

Philippa Ruth Christine Böhnke

et al.

Abstract: Current research focuses on advancements and breakthroughs in the realm of smart textiles, with applications spanning various industries such as medicine and education. For producing flexible smart textiles, electrically conductive yarns (EC) are needed to transmit signals or as part of sensor systems. Mostly, these EC consist of a polymer core with an outer metallized layer. Using EC in contact with skin requires high reliability and safety, and thus, the EC must maintain their functional properties on a long… Show more

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Development and Characterization of High‐Performance Conductive Coatings on Cotton Yarn for Advanced Machine‐Sewn Electronic Textiles

Fathme,

Islam,

Liu

et al. 2024

Adv Materials Technologies

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This study explores the development and characterization of conductive coatings applied to cotton yarns for machine‐sewn electronic textiles. namely 100% pure undyed, fully bleached, and half bleached, are dip‐coated with two solutions: the conductive carbon paste (CCP) solution and the PEDOT:PSS (5 wt.%)/CCP (55.8 wt.%) solution. Each yarn is coated and dried three times, followed by cross‐linking with a 2% CaCl2 solution. Extensive testing, including electrochemical, SEM, tensile, FTIR, XPS, TGA, DTG, linear density, machine sewing, and wash durability, is performed. The half‐bleached yarn coated with CCP exhibits the highest conductivity (19.46 ± 0.240 Scm⁻¹) and density (65.33 ± 1.1 Tex), and the pure undyed yarn coated with PEDOT:PSS/CCP at 1.913 ± 0.007 Scm−1. Both coatings demonstrated durability, retaining conductivity, and strength after multiple washing cycles, with values of 18.70 ± 0.32 and 1.90 ± 0.007 Scm⁻¹ post‐wash. Thermal analysis (TGA and DSC) indicates improved stability, with Tm values reaching 273.66 and 280.38 °C for CCP and PEDOT/CCP coatings, respectively. FTIR and XPS confirmed strong chemical bonding, ensuring robust adhesion. These results suggest the feasibility of cost‐effective, bio‐compatible, and durable conductive yarns for advanced electronic textile applications.

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Development and Characterization of High‐Performance Conductive Coatings on Cotton Yarn for Advanced Machine‐Sewn Electronic Textiles

Fathme,

Islam,

Liu

et al. 2024

Adv Materials Technologies

View full text Add to dashboard Cite

show abstract

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Environmentally Friendly Protective Coating for Electrically Conductive Yarns Using in Smart Textiles

Cited by 1 publication

References 14 publications

Development and Characterization of High‐Performance Conductive Coatings on Cotton Yarn for Advanced Machine‐Sewn Electronic Textiles

Development and Characterization of High‐Performance Conductive Coatings on Cotton Yarn for Advanced Machine‐Sewn Electronic Textiles

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