The conductive fiber preparation approaches including spinning, surface modification, and structural transformation are reviewed. With the above-mentioned superiorities of wearable strain sensors based on fiber materials, this review aims to comprehensively survey skin-mountable and fiber-based wearable strain sensors (FWSSs) in materials preparation, device manufacture, performance evolution, mechanism discussion, and application potential. The attributes pave a new way for the low-cost and scale fabrication of wearable strain sensors. Besides, some synthetic fibers made with graphene, carbon nanotube (CNT), metals, and conductive polymers endow them with good conductivity and flexibility in nature. ![]() These flexible substrates can be developed as wearable electronics via various processing: carbonization, graphitization, printing, chemical/electrolytic deposition, graft copolymerization, and so forth. ![]() ![]() In recent years, it has been found that they are also very competitive as substrate materials for wearable electronics on account of both outstanding flexibility and permeability, as well as validated harmlessness to the human body. Mankind benefits from them by utilizing their outstanding features, e.g., the excellent resilience and durability of hemp, remarkable skin-touch and structure controllability of silk, as well as the outstanding thermal protection, elasticity, moisture absorption, and excellent perspiration conductivity of cotton. Fibers have been widely used for human clothes and other commodities in daily life for thousands of years. Several materials have illustrated their potentials in stretchable strain sensors, and fiber is a competitive candidate. They overcome the limited sensing range and non-portability of conventional rigid sensors, driving a technological revolution in next-generation electronics. Such devices can immediately and directly convert physical stimulation into gaugeable signals with the advantages of flexibility, wearability, lightweight, high efficiency, and accuracy. Real-time physical perception by stretchable and skin-mountable strain sensors plays a vital role in understanding the applications of personal and public healthcare management, artificial intelligence, and future fictitious entertainment. We finally critically analyze tough challenges and future remarks of fiber-based strain sensors, aiming to implement them in real applications. The applications toward motion detection, healthcare, man–machine interaction, future entertainment, and multifunctional sensing are summarized with typical examples. We also introduce the fabrication and sensing mechanisms of state-of-the-art sensors and analyze their merits and demerits. We describe the approaches for preparing conductive fibers such as spinning, surface modification, and structural transformation. Herein, we review the latest advances in functionalization and device fabrication of fiber materials toward applications in fiber-based wearable strain sensors. Much research has focused on fiber-based sensors due to the appealing performance of fibers, including processing flexibility, wearing comfortability, outstanding lifetime and serviceability, low-cost and large-scale capacity. The free Music Collector plugin for Quintessential Player (QCD3) allows QCD3 to read from and write to Music Collector databases directly, making MuC/QCD3 into the ultimate Music Cataloguing and Playing solution.Wearable strain sensors are arousing increasing research interests in recent years on account of their potentials in motion detection, personal and public healthcare, future entertainment, man–machine interaction, artificial intelligence, and so forth. Other features: user configurable reports, CDPLAYER.INI and CDValet support, export to ASCII and HTML tables, graphical statistics on your data, integrated CDDB² Music Browser etc. Imports databases created with the other program MP3 Collector, so that you can view all your music related data in one program. It has a very comprehensive set of fields for both albums and tracks, including user-definable fields, enabling you to catalogue all information you want. Its mains screen offers a flexible Explorer-like view on your collection, letting you group, sort and filter the data in every possible way. ![]() The Batch Scanning & Querying feature makes entering your CDs very quick and easy. It is CDDB2 enabled, which means that you scan CDs in your CD-ROM drive and retrieve artist, title, year, label, genre, notes etc. It organizes your CDs, LPs, MCs, MDs, etc. Music Collector is the music edition of the series of collection managers.
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