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Smart E-Textiles: Overview of Components and Outlook
Summary
This review provides a comprehensive overview of smart electronic textiles (e-textiles), examining their key components including conductive fibers, sensors, and energy harvesting systems. The study highlights the gap between academic research and commercial viability, and discusses environmental concerns related to synthetic textile fibers and their potential to shed microplastic particles.
Smart textiles have gained great interest from academia and industries alike, spanning interdisciplinary efforts from materials science, electrical engineering, art, design, and computer science. While recent innovation has been promising, unmet needs between the commercial and academic sectors are pronounced in this field, especially for electronic-based textiles, or e-textiles. In this review, we aim to address the gap by (i) holistically investigating e-textiles' constituents and their evolution, (ii) identifying the needs and roles of each discipline and sector, and (iii) addressing the gaps between them. The components of e-textiles-base fabrics, interconnects, sensors, actuators, computers, and power storage/generation-can be made at multiscale levels of textile, e.g., fiber, yarn, fabric, coatings, and embellishments. The applications, current state, and sustainable future directions for e-textile fields are discussed, which encompasses health monitoring, soft robotics, education, and fashion applications.
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