Review: Textile-based soft robotics for physically challenged individuals

Zannat, Akhiri; Uddin, Mohammad Nasir; Mahmud, Sharif Tasnim; Prithu, Pinaki Shankar Saha; Mia, Rony

doi:10.1007/s10853-023-08799-4

Cited by 5 publications

(1 citation statement)

References 347 publications

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“…In this case, the most common use of leather in daily life is in the field of clothing [5] . It is worth noting that during sudden changes in weather or harsh environments, a single insulation performance may not be able to meet the temperature needs of the human body [77] . Mo et al developed an asymmetric double-layer leather composite.…”

Section: Thermoregulatory Clothingmentioning

confidence: 99%

From natural leather to intelligent wearable nanocomposite: design and application

Fan,

Sang,

Gong

et al. 2024

Soft Sci

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As a natural material, leather has been widely used in daily life due to its high biocompatibility, wearing comfort, and excellent mechanical strength. However, with the increasing demand for a better life among people, the single function of leather has difficulty in meeting the requirements, which limits its application prospects. It is particularly important to develop multifunctional leather composites with diverse characteristics. Therefore, leather can be modified and functionally designed through physical and chemical methods towards intelligent wearable devices. From this perspective, we review the research progress of intelligent leather-based wearable composites, mainly focusing on the preparation methods and application directions in recent years. Finally, we emphasize the challenges that leather composites will face in practical applications and propose future research directions.

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Section: Thermoregulatory Clothingmentioning

confidence: 99%

From natural leather to intelligent wearable nanocomposite: design and application

Fan,

Sang,

Gong

et al. 2024

Soft Sci

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Liquid Metal‐Coated Textile with P(AAm‐co‐AA) Ionogel Encapsulation to Mitigate Electromagnetic Radiation Pollution

Wang,

He,

Tang

et al. 2024

Adv Materials Technologies

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Conductive textiles with electromagnetic interference (EMI) shielding functionality are highly desirable for growing flexibility requirements of EMI shielding devices. Most extant shielding coatings on textiles rely on rigid nanomaterials, which are susceptible to detachment, and generate a great deal of reflected EM waves. Thus, there is a high demand for shielding coatings on textiles that are stretchable, stable, and capable of suppressing the secondary reflection toward incident EM waves. Liquid metal is a particularly suitable candidate owing to its high electrical conductivity and excellent conformality. Herein, a straightforward coating strategy is developed for fast fabrication of Ion/Clay‐F that is reinforced with ionogel encapsulation. Especially, the method enables the direct transformation of fluid‐like liquid metal into a clay‐like state and the preparation of ionogel sealings from monomer solutions. The resulting Ion/Clay‐F exhibits promising features, including high total EMI shielding effectiveness (SET) (highest value of 49.3 dB for a single layer and an average value of 73.0 dB for three layers), low reflectivity (0.404), improved tensile strength (13.16 MPa) and tolerance in a wide range of temperatures (−18–100 °C). Remarkably, such Ion/Clay‐F outperforms pure cotton fabric in terms of thermal management, delivering superior heat dissipation and thermal insulation properties.

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Two-dimensional materials van der Waals assembly enabling scalable smart textiles

Du,

Li,

Bian

et al. 2025

Materials Science and Engineering: R: Reports

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Review: Textile-based soft robotics for physically challenged individuals

Cited by 5 publications

References 347 publications

From natural leather to intelligent wearable nanocomposite: design and application

From natural leather to intelligent wearable nanocomposite: design and application

Liquid Metal‐Coated Textile with P(AAm‐co‐AA) Ionogel Encapsulation to Mitigate Electromagnetic Radiation Pollution

Two-dimensional materials van der Waals assembly enabling scalable smart textiles

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