Low cost, green and effective preparation of multifunctional flexible silk fabric electrode with ultra-high capacitance retention

Cai, Haihua; Wang, Yujia; Xu, Mengting; Cheng, Longdi; Liu, Zulan; Li, Zhi; Dai, Fangyin

doi:10.1016/j.carbon.2021.11.042

Cited by 10 publications

(3 citation statements)

References 46 publications

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“…Pretreatment with ternary solvent significantly improved the RGO loading on the substrate and showed 1.69 times lower sheet resistance (Ω) than without ternary solvent modification. In addition, the electrode maintained excellent capacitance retention (148%) at 10,000 charge-discharge cycles (Figure 7h) [217]. Du et al constructed a highly durable wearable heater from Tannic acid (TA)/Aminopropyltriethoxysilane (APTES) functionalized Polyamide 6 (PA6) woven fabric coated with electrolessly deposited copper (Cu).…”

Section: Surface Modificationmentioning

confidence: 99%

Advances in the Robustness of Wearable Electronic Textiles: Strategies, Stability, Washability and Perspective

Sadi

Kumpikaitė

2022

Nanomaterials

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Flexible electronic textiles are the future of wearable technology with a diverse application potential inspired by the Internet of Things (IoT) to improve all aspects of wearer life by replacing traditional bulky, rigid, and uncomfortable wearable electronics. The inherently prominent characteristics exhibited by textile substrates make them ideal candidates for designing user-friendly wearable electronic textiles for high-end variant applications. Textile substrates (fiber, yarn, fabric, and garment) combined with nanostructured electroactive materials provide a universal pathway for the researcher to construct advanced wearable electronics compatible with the human body and other circumstances. However, e-textiles are found to be vulnerable to physical deformation induced during repeated wash and wear. Thus, e-textiles need to be robust enough to withstand such challenges involved in designing a reliable product and require more attention for substantial advancement in stability and washability. As a step toward reliable devices, we present this comprehensive review of the state-of-the-art advances in substrate geometries, modification, fabrication, and standardized washing strategies to predict a roadmap toward sustainability. Furthermore, current challenges, opportunities, and future aspects of durable e-textiles development are envisioned to provide a conclusive pathway for researchers to conduct advanced studies.

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Section: Surface Modificationmentioning

confidence: 99%

Advances in the Robustness of Wearable Electronic Textiles: Strategies, Stability, Washability and Perspective

Sadi

Kumpikaitė

2022

Nanomaterials

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“…12 Water-soluble green bio-polymer binders have gained significant interest due to their processability in manufacturing and their ease of removal using water, allowing for the liberation of active materials from the current collector and the binders during recovery. [13][14][15] Alternative binders, including carboxyl methyl cellulose (CMC) 16,17 and other bio-based options such as alginate and xanthan gum, [18][19][20][21][22] offer sustainable alternatives with reduced environmental impact and improved recyclability.…”

Section: Introductionmentioning

confidence: 99%

Design principles for LiFePO₄ electrodes with improved recyclability

Yang,

Gastol,

Kendrick

2023

Green Chem.

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“…Flexible conductive circuits with special deformability and conductivity are in essential demand for applications in wearable electronic devices, − medical implants, , and electromagnetic interference materials. , To fulfill the requirements of these applications, stable conductivity under various types of deformation or external stress conditions is highly desired, so a stable conductive network on a flexible polymeric insulating material as a substrate is the key. Therefore, various techniques, such as inkjet printing, , screen printing, ligand-induced electroless plating, and meniscus-limited electrodeposition, have been investigated in the past for the construction of high-quality flexible conductive circuits.…”

Section: Introductionmentioning

confidence: 99%

Laser Direct Activation of Polyimide for Selective Electroless Plating of Flexible Conductive Patterns

Ren

Zhang

et al. 2022

ACS Appl. Electron. Mater.

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Flexible conductive patterns on polyimide substrates are attracting increasing research interest in the areas of wearables, biomedicals, automotives, and energy harvesters. This paper reports a laser-induced selective activation (LISA) process for electroless metallization and, therefore, the creation of complex conductive patterns on polyimide substrates. In this process, a Q-switched pulsed laser is utilized for scanning the surface and forming the catalytic layer consisting of microporous structures, which enhances the stability of electroless plated metallic structures on the polyimide surface and exhibits superior mechanical stability under repeated bending and harsh environments. The high resolution of the metallic patterning enables the demonstration of a copper microgrid pattern with a line width down to 50 μm. Moreover, flexible light-emitting diode displays and electromagnetic interference shielding films are successfully manufactured to indicate the promising capability of our LISA process.

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Low cost, green and effective preparation of multifunctional flexible silk fabric electrode with ultra-high capacitance retention

Cited by 10 publications

References 46 publications

Advances in the Robustness of Wearable Electronic Textiles: Strategies, Stability, Washability and Perspective

Advances in the Robustness of Wearable Electronic Textiles: Strategies, Stability, Washability and Perspective

Design principles for LiFePO₄ electrodes with improved recyclability

Laser Direct Activation of Polyimide for Selective Electroless Plating of Flexible Conductive Patterns

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Low cost, green and effective preparation of multifunctional flexible silk fabric electrode with ultra-high capacitance retention

Cited by 10 publications

References 46 publications

Advances in the Robustness of Wearable Electronic Textiles: Strategies, Stability, Washability and Perspective

Advances in the Robustness of Wearable Electronic Textiles: Strategies, Stability, Washability and Perspective

Design principles for LiFePO4 electrodes with improved recyclability

Laser Direct Activation of Polyimide for Selective Electroless Plating of Flexible Conductive Patterns

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Design principles for LiFePO₄ electrodes with improved recyclability