A multifunctional wearable E-textile <i>via</i> integrated nanowire-coated fabrics

Lian, Yunlu; He, Yu; Wang, Mingyuan; Yang, Xiong; Li, Zhe; Yang, Fan; Wang, Yan; Tai, Huiling; Liao, Yulong; Wu, Jheng-Yu; Wang, Xiangru; Jiang, Yadong; Tao, Guangming

doi:10.1039/d0tc00372g

Cited by 74 publications

(60 citation statements)

References 61 publications

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“…2 Recently, the concept of "personal thermal management" based on silver nanowires, has been particularly highlighted and initiated for the design of various textiles. 3,4 Due to the AgNWs' ability to reect human body infrared radiation and reduce heat loss, they are applied in creating smart wearable materials. 5,6 However, AgNWs use for practical purposes is limited by their low chemical and thermal stability, low adhesion, electrical instabilities, and ageing processes.…”

Section: Introductionmentioning

confidence: 99%

A SnO₂ shell for high environmental stability of Ag nanowires applied for thermal management

et al. 2021

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Section: Introductionmentioning

confidence: 99%

A SnO₂ shell for high environmental stability of Ag nanowires applied for thermal management

et al. 2021

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“…The preliminary results indicated the system was capable to recognize indirect changes in breath pressure and that the acquired signal was coherent with average adult breaths count. Finally, Lian et al [ 70 ] proposed a multifunctional e-textile material—whose layers were composed of high-density AgNWs and a sensing fabric, respectively—which was used to fabricate a face mask, through which they showed the feasibility to indirectly evaluate variations in breathing rate. This prototype could show potential applications also for healthcare monitoring (e.g., cardiac and respiratory illnesses linked to particulate matter 2.5 penetration in human body); however, to the best of the authors’ knowledge, the authors did not consider this particular case as the main application for the multifunctional e-textile.…”

Section: Resultsmentioning

confidence: 99%

The E-Textile for Biomedical Applications: A Systematic Review of Literature

et al. 2021

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The use of e-textile technologies spread out in the scientific research with several applications in both medical and nonmedical world. In particular, wearable technologies and miniature electronics devices were implemented and tested for medical research purposes. In this paper, a systematic review regarding the use of e-textile for clinical applications was conducted: the Scopus and Pubmed databases were investigate by considering research studies from 2010 to 2020. Overall, 262 papers were found, and 71 of them were included in the systematic review. Of the included studies, 63.4% focused on information and communication technology studies, while the other 36.6% focused on industrial bioengineering applications. Overall, 56.3% of the research was published as an article, while the remainder were conference papers. Papers included in the review were grouped by main aim into cardiological, muscular, physical medicine and orthopaedic, respiratory, and miscellaneous applications. The systematic review showed that there are several types of applications regarding e-textile in medicine and several devices were implemented as well; nevertheless, there is still a lack of validation studies on larger cohorts of subjects since the majority of the research only focuses on developing and testing the new device without considering a further extended validation.

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“…The produced rGO/CNT/NWF textiles are highly sensitive to strain, with a gauge factor of 32.65 at a tensile strain of 1.0% and higher thermal conductivity of 2.90 W.m −1 .K −1 . E‐textiles have many applications in healthcare, such as tracking body motion, pulse oximetry, 88 and monitoring vital signs 89 …”

Section: Thermal Principle and Measurement Methodsmentioning

confidence: 99%

“…E-textiles have many applications in healthcare, such as tracking body motion, pulse oximetry, 88 and monitoring vital signs. 89…”

Section: Portable Designmentioning

confidence: 99%

Thermal management of wearable and implantable electronic healthcare devices: Perspective and measurement approach

2020

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Summary The performance of electronic devices, mostly in medical applications, has been investigated to determine whether they meet the requirements of healthcare monitoring and patient's satisfaction. Mobile health monitoring is preferable at present given the current innovations in handheld, wearable, and implantable devices. However, these applications require appropriate thermal management because they are attached directly to the human body and operate for a long period. Moreover, a sophisticated design with functional mobility necessitates proper thermal circulation during the process. This review provides the current research direction for cooling systems, the thermal working principle of wearable and implantable devices, and its implementation on design architecture. Then, the importance of internal and external functional properties in thermal management and their effects on device performance are discussed. Operating temperature is among the most important elements in monitoring thermal performance due to the tendency of tissue and component damages to occur after an increment of only 1°C or 2°C in temperature. Challenges and available solutions for thermal management are listed in detail to improve cooling methods and service to the healthcare field.

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A multifunctional wearable E-textile via integrated nanowire-coated fabrics

Abstract:
We demonstrate a novel multifunctional E-textile which functions as a pressure sensor, Joule heater, thermal insulator, and PM2.5 filter.

Cited by 74 publications

References 61 publications

A SnO₂ shell for high environmental stability of Ag nanowires applied for thermal management

A SnO₂ shell for high environmental stability of Ag nanowires applied for thermal management

The E-Textile for Biomedical Applications: A Systematic Review of Literature

Thermal management of wearable and implantable electronic healthcare devices: Perspective and measurement approach

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A multifunctional wearable E-textile via integrated nanowire-coated fabrics

Abstract: We demonstrate a novel multifunctional E-textile which functions as a pressure sensor, Joule heater, thermal insulator, and PM2.5 filter.

Cited by 74 publications

References 61 publications

A SnO2 shell for high environmental stability of Ag nanowires applied for thermal management

A SnO2 shell for high environmental stability of Ag nanowires applied for thermal management

The E-Textile for Biomedical Applications: A Systematic Review of Literature

Thermal management of wearable and implantable electronic healthcare devices: Perspective and measurement approach

Contact Info

Product

Resources

About

Abstract:
We demonstrate a novel multifunctional E-textile which functions as a pressure sensor, Joule heater, thermal insulator, and PM2.5 filter.

A SnO₂ shell for high environmental stability of Ag nanowires applied for thermal management

A SnO₂ shell for high environmental stability of Ag nanowires applied for thermal management