Reprint
Novel Smart Textiles
Edited by
April 2020
230 pages
- ISBN978-3-03928-570-9 (Hardback)
- ISBN978-3-03928-571-6 (PDF)
This book is a reprint of the Special Issue Novel Smart Textiles that was published in
Chemistry & Materials Science
Engineering
Physical Sciences
Summary
The sensing, adapting, responding, multifunctionality, low energy, small size and weight, ease of forming, and low-cost attributes of smart textiles and their multidisciplinary scope offer numerous end uses in medical, sports and fitness, military, fashion, automotive, aerospace, the built environment, and energy industries. The research and development on these new and high-value materials cross scientific boundaries, redefine material science design and engineering, and enhance quality of life and our environment. “Novel Smart Textiles” is a focused Special Issue that reports the latest research of this field and facilitates dissemination, networking, discussion, and debate.
Format
- Hardback
License
© 2020 by the authors; CC BY-NC-ND license
Keywords
e-textile; metamaterials; transmission line; wearable; split ring resonator; dye-sensitized solar cell (DSSC); polyacrylonitrile (PAN); nanofiber mat; electrospinning; PEDOT:PSS; dye-sensitized solar cell; half-textile; spectral analysis; parameter identification; equivalent circuit; black-box; grey-box; power spectral density; optimization; analytical model; electromagnetic shielding effectiveness; electric properties; fabric; woven textiles; carbon nanomaterials; smart fabrics; in-line monitoring; polymeric composites; carbon nanotubes; reduced graphene oxide; textile electrode; ECG; motion sensor; skin-electrode impedance; electrically conductive textiles; polymers; smart textiles; surface area evaluation; microencapsulation; biofunctional; drug-delivery; textile-based stretch sensors; stitch structure; wearable stretch sensor; conductive thread; conductivity; metal flake; coating; e-textile; encapsulation; durability; stiffness; textile/polymer composite; stretchable electronics; smart textiles; mechanical and electrical properties; quasi-static and cyclic mechanical loading; life-time expectancy; smart textile; thermal textile pixel; thermal communication; non-auditory and nonvisual communication; thermal conductivity; Peltier element; SMART pattern-changing fabric; pattern effect; visual response; visual brain; event-related potential (ERP); psychotextiles; art and design; smart textiles; textile sensors; e-textiles; visual brain; thermal textile pixels; stretchable electronics; conductive textiles; wearables; stitch-based sensors; biofunctional textiles; ECG; hybrid electrodes; motion tracking; carbon nanotextiles; composites; EMS textiles; electrospun solar cells; embroidered e-textiles; targeted delivery; psychotextiles; energy harvesting; multifunctional