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Fabrics and Garments as Sensors: A Research Update
Summary
This review examines the latest research on smart fabrics and garments that incorporate sensors for monitoring physiological or environmental parameters, covering advances in fiber-based electronics, wearable health monitors, and environmental sensing textiles. The work is peripherally relevant to microplastics research as the field explores how textile technology could be redesigned to reduce fiber shedding.
Properties critical to the structure of apparel and apparel fabrics (thermal and moisture transfer, elasticity, and flexural rigidity), those related to performance (durability to abrasion, cleaning, and storage), and environmental effects have not been consistently addressed in the research on fabric sensors designed to interact with the human body. These fabric properties need to be acceptable for functionalized fabrics to be effectively used in apparel. Measures of performance such as electrical conductivity, impedance, and/or capacitance have been quantified. That the apparel/human body system involves continuous transient conditions needs to be taken into account when considering performance. This review highlights gaps concerning fabric-related aspects for functionalized apparel and includes information on increasing the inclusion of such aspects. A multidisciplinary approach including experts in chemistry, electronics, textiles, and standard test methods, and the intended end use is key to widespread development and adoption.
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