2019
DOI: 10.1002/celc.201801593
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All Fiber Based Electrochemical Capacitor towards Wearable AC Line Filters with Outstanding Rate Capability

Abstract: Due to their high spatial utilization, excellent flexibility and good adaptability, fiber-shaped devices have promising potential for applications in wearable electronics. However, the fiberization process of the component with alternate current (AC) line filtering function is still far from being satisfactory, since it is difficult to arrange an ordered structure in a fiber shape in large-scale manufacturing. This leads to a slow frequency response. Herein, a weavable fiber-shaped electrochemical capacitor (S… Show more

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Cited by 14 publications
(16 citation statements)
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“…Besides the liquid electrolytes, gel electrolytes including hydrogels and ion‐gels were also investigated for quasi‐solid‐state high‐frequency SCs, thereby expanding their applications to stretchable MSCs, [ 74 ] flexible SC or MSCs, [ 44,60,75,76 ] weavable fiber‐shaped SCs, [ 77,78 ] and on‐chip MSCs ( Figure 14 ). [ 55,63–65,82 ] Their 3D polymeric network structure with a liquid phase provides many advantages such as good mechanical properties (flexibility or/and stretchability) and no leakage issues.…”
Section: Electrolytesmentioning
confidence: 99%
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“…Besides the liquid electrolytes, gel electrolytes including hydrogels and ion‐gels were also investigated for quasi‐solid‐state high‐frequency SCs, thereby expanding their applications to stretchable MSCs, [ 74 ] flexible SC or MSCs, [ 44,60,75,76 ] weavable fiber‐shaped SCs, [ 77,78 ] and on‐chip MSCs ( Figure 14 ). [ 55,63–65,82 ] Their 3D polymeric network structure with a liquid phase provides many advantages such as good mechanical properties (flexibility or/and stretchability) and no leakage issues.…”
Section: Electrolytesmentioning
confidence: 99%
“…[20,23,111] Therefore, to achieve both sufficiently highfrequency response and high capacitance for 60-Hz AC line filtering, it is desirable for carbon electrode materials to have optimized pore sizes/structures that allow fast ion movement while providing large surface areas for ion adsorption (e.g., Φ = −81° and 13.1 F cm -3 for CNTs). [37][38][39][40][41][42][43][44] Besides the liquid electrolytes, gel electrolytes including hydrogels and ion-gels were also investigated for quasi-solidstate high-frequency SCs, thereby expanding their applications to stretchable MSCs, [74] flexible SC or MSCs, [44,60,75,76] weavable fiber-shaped SCs, [77,78] and on-chip MSCs (Figure 14). [55,[63][64][65]82] Their 3D polymeric network structure with a liquid phase provides many advantages such as good mechanical properties (flexibility or/and stretchability) and no leakage issues.…”
Section: Electrolytesmentioning
confidence: 99%
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“…Given this, a myriad of electrode materials with elaborate structures have been developed to balance the trade-offs between the ion transport property and capacitance density, including the vertically aligned arrays, large porous films, onion-like nanoparticles, edge-oriented coating, and their composite assemblies [17][18][19][20][21][22][23][24][25][26][27][28] . Among them, large porous structures are of advantage for rapid ion transport, which enables the phase angle value at 120 Hz (Φ120) to reach −80° (the Φ120 close to −90° represents a good capacitive behavior) 14, 15,25,26,29,30 .…”
Section: Introductionmentioning
confidence: 99%