Influence of structural and textural parameters of carbon nanofibers on their capacitive behavior

Moyseowicz, Adam; Śliwak, Agata; Gryglewicz, Grażyna

doi:10.1007/s10853-015-9660-2

Cited by 31 publications

(10 citation statements)

References 46 publications

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“…[ 6 ] To date, the most commonly researched MXene is titanium carbide (Ti 3 C 2 T x , where T x define surface terminations, such as OH, F, and O), which showed much higher C sp than previously reported electrode materials such as porous carbons, [ 7 ] CNT, [ 8 ] graphene, [ 9 ] CNFs. [ 10 ] In addition, our previous research has been demonstrated that Ti 3 C 2 produced via HF etching and subsequent delamination with tetrabutylammonium hydroxide (TBAOH) shows enhanced capacitive behavior. [ 11 ] Furthermore, transitional metal dichalcogenides and particularly tungsten sulphide (WS 2 ) reveals enhanced electrical and [ 12 ] thermal properties, [ 13 ] shorter ions transfer pathway (compared to bulk materials), [ 14 ] metallicity in nature, [ 15 ] and yield when employed as FSC electrode materials.…”

Section: Introductionmentioning

confidence: 99%

Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti₃C₂ MXene and 1T‐Phase WS₂ Nanosheets

Vaghasiya

Mayorga‐Martinez

Vyskočil

et al. 2020

Adv Funct Materials

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Research on wearable sensing technologies has been gaining considerable attention in the development of portable bio-monitoring devices for personal health. However, traditional energy storage systems with defined size and shape have inherent limitations in satisfying the performance requirements for flexible electronics. To overcome this constraint, three different configurations of flexible asymmetric supercapacitor (FASC) are fabricated on polyester/cellulose blend (PCB) cloth substrate using Ti 3 C 2 nanosheet (NS) and 1T WS 2 NS as electrodes, and aqueous pluronic gel as an electrolyte. Benefiting from the 2D material electrodes, the interdigitated FASC configuration exhibits excellent performance, flexibility, cyclic stability, wearability and can be configured into multiple units and shapes, which far exceed that exhibited by the textile-based FASC. Furthermore, the arbitrary ("AFN") and sandwich ("FLOWER") configurations Ti 3 C 2 NS/1T WS 2 NS FASC can be assembled directly on a PCB cloth substrate, thereby offering good structural integrity coupled with ease of assembly into integrated circuits of different shapes. More specifically, a lightweight, flexible, and wearable bio-monitoring system is developed by integrating force sensing device with interdigitated FASC, which can be used to monitor the physical status of human body during various activities. A potential application of this system in healthcare is successfully demonstrated and discussed.

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Section: Introductionmentioning

confidence: 99%

Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti₃C₂ MXene and 1T‐Phase WS₂ Nanosheets

Vaghasiya

Mayorga‐Martinez

Vyskočil

et al. 2020

Adv Funct Materials

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“…Meanwhile, the pore size of ACMs decreases from 7.71 nm (ACM-1) to 5.34 nm (ACM-2) when the PHHC precursor changes from C 2 Cl 6 to C 6 Br 6 . These results illustrate that the rigid brace effect of benzene rings and the placeholder effect of large size halogens facilitate the formation of the developed pore structure, which is beneficial to their application in supercapacitors [36,37]. As shown in Fig.…”

Section: Characterizations Of Acmsmentioning

confidence: 63%

Efficient synthesis of alkynyl carbon materials derived from CaC2 through solvent-free mechanochemical strategy for supercapacitors

et al. 2019

SN Appl. Sci.

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The synthesis of new carbonaceous electrode materials for supercapacitors and the discovery of efficient techniques for the CaC 2 activation are meaningful subjects. In this study, unique alkynyl carbon materials (ACMs) were effectively synthesized through solvent-free mechanochemical reactions of CaC 2 with C 2 Cl 6 or C 6 Br 6. Their components and structure were comprehensively characterized, and their supercapacitor performances were examined in detail. The mechanochemistry has proved to be an efficient and targeted technique for the reactive activation of CaC 2. The sp-C dominated ACMs feature interconnected framework with hierarchical pores, tunable structures, and low cost of raw materials. As electrodes for supercapacitors, the ACMs exhibit high specific capacitances in the range of 48.4-132.4 F g −1 with excellent electrical conductivities and outstanding cycling stabilities. This work provides an efficient, green, and cost-effective strategy for the synthesis of ACMs from wildly available precursors, and a significant assistance for the renaissance of CaC 2 chemistry.

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“…Two samples of CNTs were made: dried (CNT) and calcined at 450°С (CNT450). "Among the studied CNFs, the highest capacitance value was obtained for the platelet-type CNFs; tubular CNFs exhibited the lowest capacitance value" [16]. The average values of pore diameter Dav (Table 1) were calculated by us as arithmetic mean of the diameters of the DpTEM interval measured by the uthors using the TEM method [16].…”

Section: Range Of Pore Shapesmentioning

confidence: 99%

Porous materials: microporosity induced by the shape and length of the pores

Titelman¹

2020

Preprint

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There are insufficient parameters to explain the appearance of microporosity in porous materials. One of the parameters associated with micropores is the generalized pore shape factor F, which includes, as special cases, the known slit, circular and spherical model pore shapes. F covers the shapes between the slit (F = 2000) and spherical (F = 6000), as well as beyond. For the intermediate shape, one can estimate proportions of model motifs. The transition of the shape from one model to another is accompanied by the appearance of micropores (or vice versa); corresponding dependencies are given. Nanotechnologies, such as self-assembly of ordered mesoporous materials (OMMs), the production of carbon OMMs as replicas of silica matrixes, supercapacitors made of carbon nanofibres (CNF), a hybrid CNF/MWCNT for use in lithium-ion batteries, carbon xerogels with Ni additive for storage of H2, catalysis and others are discussed; they cover materials with F in the range 1,100 ÷ 32,600. A pore surface length index Lsi is proposed for any pore shape; it supplements the generalized parameters causing stresses, deformations and micropores. Using F and Lsi, it was discovered, that activated carbon, obtained as a replica of non-circular matrix of silica, behaves like a compressed spring, which, after removal of silica, expands and its pores become circular. A concept of molecular sieving based on the shape of molecules is proposed and demonstrated by the example of lipase immobilization. Application of the proposed parameters improves understanding of many published and new results.

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Influence of structural and textural parameters of carbon nanofibers on their capacitive behavior

Cited by 31 publications

References 46 publications

Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti₃C₂ MXene and 1T‐Phase WS₂ Nanosheets

Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti₃C₂ MXene and 1T‐Phase WS₂ Nanosheets

Efficient synthesis of alkynyl carbon materials derived from CaC2 through solvent-free mechanochemical strategy for supercapacitors

Porous materials: microporosity induced by the shape and length of the pores

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Influence of structural and textural parameters of carbon nanofibers on their capacitive behavior

Cited by 31 publications

References 46 publications

Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti3C2 MXene and 1T‐Phase WS2 Nanosheets

Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti3C2 MXene and 1T‐Phase WS2 Nanosheets

Efficient synthesis of alkynyl carbon materials derived from CaC2 through solvent-free mechanochemical strategy for supercapacitors

Porous materials: microporosity induced by the shape and length of the pores

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Product

Resources

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Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti₃C₂ MXene and 1T‐Phase WS₂ Nanosheets

Integrated Biomonitoring Sensing with Wearable Asymmetric Supercapacitors Based on Ti₃C₂ MXene and 1T‐Phase WS₂ Nanosheets