2021
DOI: 10.3390/polym13060894
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Abstract: Wearable textile chemical sensors are promising devices due to the potential applications in medicine, sports activities and occupational safety and health. Reaching the maturity required for commercialization is a technology challenge that mainly involves material science because these sensors should be adapted to flexible and light-weight substrates to preserve the comfort of the wearer. Conductive polymers (CPs) are a fascinating solution to meet this demand, as they exhibit the mechanical properties of pol… Show more

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Cited by 45 publications
(25 citation statements)
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References 126 publications
(190 reference statements)
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“…Besides colorimetric sensors which are often applied in sweat analysis [131][132][133][134][135], there are also other types of sensors based on measuring the electrical properties of specifically functionalized conductive fibers, yarns or textile fabrics, which are changed upon contact of the functionalized sensor with a defined molecule, etc. [136][137][138][139][140].…”
Section: Sweat Examinationmentioning
confidence: 99%
“…Besides colorimetric sensors which are often applied in sweat analysis [131][132][133][134][135], there are also other types of sensors based on measuring the electrical properties of specifically functionalized conductive fibers, yarns or textile fabrics, which are changed upon contact of the functionalized sensor with a defined molecule, etc. [136][137][138][139][140].…”
Section: Sweat Examinationmentioning
confidence: 99%
“…Other electrochemical sensors, referred to as amperometric or potentiometric, measure the electric current or potential, respectively, resulting from oxidation or reduction reactions in the presence of the targeted substance [14]. Both amperometric and potentiometric textile-based sensors are common in biomedical research [14,[26][27][28]. Liu et al [26] developed an amperometric glucose biosensor using polypyrrole (PPy) nanofibers.…”
Section: Textile-based Sensorsmentioning
confidence: 99%
“…Two other types of attached wearables are beginning to move along the research to workplace application pathway. These are sensors that are woven into textiles that can be worn by a worker as clothing 36 ( electronic textile wearables ) and sensors incorporated in thin “skin‐like” films or tattoos that can be applied directly to the epidermis 37–39 ( electronic epidermal wearables ). The third variety of new sensors are implantable sensors that can be inserted into the skin via microneedles, 14,40 microchips, 41 or can be ingestible 42,43 ( implantables ).…”
Section: Sensor Taxonomymentioning
confidence: 99%