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Nonmetallic electroconductive textiles, unlike metals, offer flexibility, durability, moldability, and lightweight attributes. A brilliant quality of these textiles is the capability to alter conductivity through various external stimuli (e.g., strain, torsion, pH, humidity) to suit a specific application such as sensors, heating garments, EMI shielding, energy harvesting devices, and wearable electronics.
Based on these concepts, Advances in Electrically Conductive Textiles: Materials, Characterization, and Applications has been structured into three main sections. Section I contains chapters discussing the various preparation methods of electroconductive textiles, Section II contains chapters on their characteristics and features, and Section III details the end-use applications and sustainability of these textiles.
Explores strategies and methods in the development of electroconductive textile composites
Investigates features of nonmetallic conductive textiles prepared from graphene, conductive polymers, MXene, and carbon nanotubes
Examines the application of electroconductive textiles for heat generation, EMI shielding, sensors, antimicrobial, filtration, energy storage, energy harvesting, and smart textiles
Publisher : Elsevier; 1st edition (November 20, 2024)
Language : English
Paperback : 876 pages
ISBN-10 : 0443220476
ISBN-13 : 978-0443220470
