2022
DOI: 10.1002/advs.202202489
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Elastic Kernmantle E‐Braids for High‐Impact Sports Monitoring

Abstract: The kernmantle construction, a kind of braiding structure that is characterized by the kern absorbing most of the stress and the mantle protecting the kern, is widely employed in the field of loading and rescue services, but rarely in flexible electronics. Here, a novel kernmantle electronic braid (E‐braid) for high‐impact sports monitoring, is proposed. The as‐fabricated E‐braids not only demonstrate high strength (31 Mpa), customized elasticity, and nice machine washability (>500 washes) but also exhibit exc… Show more

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Cited by 14 publications
(10 citation statements)
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“…Finally, the most important and future trend of electret would be the use of machine learning toward a sustainable system, with the aid of data processing, the system would be easily handed the signal with the small values and the clear identification of the many potential applications. [103][104][105] For example, the identification of biological motion, artificial synapses, and human-related activities monitoring. Moreover, besides energy harvesting, self-powered sensing based on electret technology was also a hot research direction for the IoT.…”
Section: Discussionmentioning
confidence: 99%
“…Finally, the most important and future trend of electret would be the use of machine learning toward a sustainable system, with the aid of data processing, the system would be easily handed the signal with the small values and the clear identification of the many potential applications. [103][104][105] For example, the identification of biological motion, artificial synapses, and human-related activities monitoring. Moreover, besides energy harvesting, self-powered sensing based on electret technology was also a hot research direction for the IoT.…”
Section: Discussionmentioning
confidence: 99%
“…Compared with as‐above fabrics, the application of braids in emerging fields is rare, but its high strength, machine washability, and stability also show the potential of high‐impact motion detection in flexible electronics. [ 97 ]…”
Section: Fabric Manufacturing Based On Yarnsmentioning
confidence: 99%
“…With the continuous advancement of the Internet of Things, energy-autonomous wearable electronics that can get rid of traditional batteries with limited lifetime cycles, frequent replacement, possible safety threats, and even environment-related risks are especially in demand. Triboelectric nanogenerators (TENGs), which operate via contact electrification and electrostatic induction, can convert ubiquitous and irregular low-frequency mechanical energy into electricity for achieving the self-sufficient trait of wearable electronics. With the virtues of low price, environmental friendly, and easy availability, along with the wide range of material options, , TENGs have huge application prospects, including wearable powering, multifunctional self-powered sensing, personal healthcare monitoring, and human–machine interactions. In comparison to other existing wearable forms of carrying, attaching, embedding, etc., textiles can be an ideal for seamlessly integrating electrical capabilities without adding burden or sacrificing aesthetics, thus endowing a diverse design carrier for TENGs . Therefore, a novel kind of smart textiles, namely, textile-based TENG (t-TENG) with mechanical energy harvesting function and satisfactory wearing comfort, is emerging rapidly, thus opening up a new research direction for the development of TENGs. …”
Section: Introductionmentioning
confidence: 99%