Closed‐Loop Recycling of Wearable Electronic Textiles DOI Creative Commons
Marzia Dulal, Shaila Afroj, Md Rashedul Islam

et al.

Small, Journal Year: 2024, Volume and Issue: unknown

Published: Oct. 2, 2024

Abstract Wearable electronic textiles (e‐textiles) are transforming personalized healthcare through innovative applications. However, integrating electronics into for e‐textile manufacturing exacerbates the rapidly growing issues of waste (e‐waste) and textile recycling due to complicated disposal processes needed mixed materials, including fibers, components. Here, first closed‐loop wearable e‐textiles is reported by incorporating thermal‐pyrolysis graphene‐based convert them graphene‐like electrically conductive recycled powders. A scalable pad‐dry coating technique then used reproduce demonstrate their potential applications as electrodes capturing electrocardiogram (ECG) signals temperature sensors. Additionally, supercapacitor highlights sustainable energy storage devices, maintaining notable durability retaining ≈94% capacitance after 1000 cycles with an areal 4.92 mF cm⁻ 2 . Such showcases repurposing multifunctional applications, promoting a circular approach that potentially prevents negative environmental impact reduces landfill disposal.

Language: Английский

Propelling polysulfides conversion in lithium-sulfur batteries via separator modification with nitrogen-doped porous carbon nanosheets decorated by iron carbide nanoparticles DOI
Qian Wang, Hansol Kim, Zhengyang Li

et al.

Chemical Engineering Journal, Journal Year: 2025, Volume and Issue: unknown, P. 160588 - 160588

Published: Feb. 1, 2025

Language: Английский

Citations

1
Closed‐Loop Recycling of Wearable Electronic Textiles DOI Creative Commons
Marzia Dulal, Shaila Afroj, Md Rashedul Islam

et al.

Small, Journal Year: 2024, Volume and Issue: unknown

Published: Oct. 2, 2024

Abstract Wearable electronic textiles (e‐textiles) are transforming personalized healthcare through innovative applications. However, integrating electronics into for e‐textile manufacturing exacerbates the rapidly growing issues of waste (e‐waste) and textile recycling due to complicated disposal processes needed mixed materials, including fibers, components. Here, first closed‐loop wearable e‐textiles is reported by incorporating thermal‐pyrolysis graphene‐based convert them graphene‐like electrically conductive recycled powders. A scalable pad‐dry coating technique then used reproduce demonstrate their potential applications as electrodes capturing electrocardiogram (ECG) signals temperature sensors. Additionally, supercapacitor highlights sustainable energy storage devices, maintaining notable durability retaining ≈94% capacitance after 1000 cycles with an areal 4.92 mF cm⁻ 2 . Such showcases repurposing multifunctional applications, promoting a circular approach that potentially prevents negative environmental impact reduces landfill disposal.

Language: Английский

Citations

7