2021
DOI: 10.1002/aelm.202001238
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Metal‐Textile Laser Welding for Wearable Sensors Applications

Abstract: Electronic textile (E‐textile), an emerging technology, has the potential to revolutionize consumer electronics by transforming them into wearable devices. Highly conductive, textile conductors, suitable for commercialization, have yet not been developed. Here, a new metal‐textile laser welding method is presented for a rapid one‐step, stable, and cost‐efficient manufacturing of electrically conductive textiles. This method is a direct on‐textile approach for customized 2D nanothick metal coatings with flexibl… Show more

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Cited by 20 publications
(14 citation statements)
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“…50 Practically, multidimensional textile insulators can be transformed into a versatile intelligent clothing platform via the integration of electroactive materials on curved brous surfaces. To date, numerous techniques have been investigated to integrate electroactive materials with textiles, leading to the invention of wearable batteries, 51 sensors, 52,53 Joule heaters, 54 energy harvesters, 55 implants, 56 supercapacitors, 57 antennas, 58 and dry ECG electrodes. 59 The electrochemical fabrication of the pristine textile is carried out in diverse textile processing phases (e.g., spinning, winding, and readymade garments) according to the requirement of the textronics pattern and implementation (Table 1).…”
Section: Basic Structure Of Textronicsmentioning
confidence: 99%
“…50 Practically, multidimensional textile insulators can be transformed into a versatile intelligent clothing platform via the integration of electroactive materials on curved brous surfaces. To date, numerous techniques have been investigated to integrate electroactive materials with textiles, leading to the invention of wearable batteries, 51 sensors, 52,53 Joule heaters, 54 energy harvesters, 55 implants, 56 supercapacitors, 57 antennas, 58 and dry ECG electrodes. 59 The electrochemical fabrication of the pristine textile is carried out in diverse textile processing phases (e.g., spinning, winding, and readymade garments) according to the requirement of the textronics pattern and implementation (Table 1).…”
Section: Basic Structure Of Textronicsmentioning
confidence: 99%
“…One feasible approach to measure wound temperature is using resistance‐based temperature sensors, These sensors work by adopting thermoresistive materials such as metals (e.g., gold, [ 64 ] nickel, [ 65 ] and copper [ 66 ] ) and semiconductors (e.g., graphene [ 67 ] and silicon [ 68 ] ) as key elements. For example, a laser‐guided graphene‐MXenes/PDMS temperature sensor was developed and displayed on human skin ( Figure A,B).…”
Section: Biomarker Sensing and Monitoringmentioning
confidence: 99%
“…They discussed only rigid boards attached, without protections against washing damages. Fromme et al [22] prepared the laser-welded metal textile fabric by using metal foils and thermoplastic polymers. The prepared samples were claimed to resist 42,000 flexing cycles and 10,000 abrasion cycles.…”
Section: Introductionmentioning
confidence: 99%