Morphology‐dependent electrochemical performance of nitrogen‐doped carbon dots@polyaniline hybrids for supercapacitors

Xie, Fei; Zhou, Mingchen; Wang, Guoyu; Wang, Qiyang; Yan, Ming; Hong, Bo

doi:10.1002/er.4678

Cited by 28 publications

(34 citation statements)

References 52 publications

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“…23 Currently, the most widely used electrode materials in EDLCs are activated carbons (ACs), which generally possess high surface area, good electric conductivity, and excellent long-term cycling stability. 22,[24][25][26] Heteroatoms doping [27][28][29][30][31] or co-doping [32][33][34][35] can effectively improve the energy storage of ACs, and the dependence of the chargestorage capability of ACs on the surface area of ACs has stimulated the interest to fabricate porous ACs to increase specific adsorption sites. 5 However, the topology of ACs is another important factor likely controlling the migration of electrolyte ions during electrochemical cycling.…”

Section: Introductionmentioning

confidence: 99%

High‐performance activated carbons for electrochemical double layer capacitors: Effects of morphology and porous structures

et al. 2019

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Summary In this work, we prepare a series of activated carbons (ACs) from xylose with different combinations of hydrothermal synthesis (HTS) and chemical activation with KOH. The prepared ACs exhibit a variety of morphologies and porous structures, which depend on the conditions used in the hydrothermal synthesis and the chemical activation. The largest surface area (SBET) of the prepared ACs, which is calculated by the Brunauere Emmette Teller (BET) method, is ~3500 m2/g, and the largest volume fraction of mesopores of the prepared ACs is 60%. The correlations between the specific electrochemical properties of the ACs and the structures of the ACs (ie, porous structures and morphologies) are discussed. Spherical ACs exhibit superior rate performance with low impedance. The ACs with three‐dimensional interconnected network of large surface area and porosity possess high specific capacitance. The largest specific capacitance reaches 340 F/g at a current density of 0.5 A/g and 220 F/g at a current density of 50 A/g, which are superior or comparable to those of similar systems. The long‐term capacitance retention is ~86.8% after 10 000 cycles at a current density of 50 A/g. The energy density reaches 48 Wh/kg at a power density of 13.6 kW/kg.

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Section: Introductionmentioning

confidence: 99%

High‐performance activated carbons for electrochemical double layer capacitors: Effects of morphology and porous structures

et al. 2019

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“…The NMR spectra and FTIR spectra identify the surface chemical groups on as‐obtained CDs shown in Figure S1. These active functional groups on the surface of CDs would improve the hydrophilicity of CDs, which is helpful for promoting the contact between the electrode material and the electrolyte . As‐synthesized CDs with a lattice spacing of 0.215 nm and the average diameter is around 7 to 12 nm.…”

Section: Resultsmentioning

confidence: 99%

In‐situ formation and intercalation of carbon dots induced high‐yield 1T‐molybdenum disulfide as electrode materials

et al. 2019

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Herein, carbon dots/octahedral molybdenum disulfide hybrids (CDs@1T-MoS 2 ) were successfully fabricated via a facile hydrothermal method by the induction of carbon dots. In this method, CDs as a core in this system were first synthesized via hydrothermal method of citric acid (CA). Their morphology and properties were analyzed using X-Ray diffraction (XRD), Raman spectroscopy, Xray photoelectron spectroscopy (XPS) and scanning electron microscopy (SEM) measurements. Results indicated that the high yield (about 78%) and ultrathin sheets octahedral 1T-MoS 2 were obtained by introducing CDs fabricated by hydrothermal CA. Importantly, this work effectively solves the aggregation of nonsubstituted MoS 2 sheets via in-situ formation, intercalation and exfoliation of CDs and achieves MoS 2 sheet-based electrode materials with big specific surface area and high specific capacitance as well as good rate capability and excellent cycling stability. Among binary CDs@1T-MoS 2 hybrids, the S4 hybrid especially exhibits the highest specific capacitance of 380 F/g at a current density of 0.5 A/g and the best cycle stability with keeping 97% after 2000 charge-discharge cycles. The outstanding performances of the CDs@1T-MoS 2 hybrids were mainly attributed to the awesome synergistic effects between CDs and 1T-MoS 2 . And these multifunctional CDs@1T-MoS 2 hybrids have great potential applications in supercapacitance electrode material, microwave adsorption, and catalytic degradation. K E Y W O R D S carbon dots (CDs), electrochemical performances, hydrothermal method, octahedral molybdenum disulfide (1T-MoS 2 )

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“…45 Zhaofen et al has reported a specific capacitance of 160.5 F/g for aniline-grafting graphene oxide/PANI (GO-ANI/PANI) composite. 47 We have taken acetylene black as a carbon source to reduce the cost and prepared a new ternary composite (polyaniline-acetylene blackcopper cobaltite). 47 We have taken acetylene black as a carbon source to reduce the cost and prepared a new ternary composite (polyaniline-acetylene blackcopper cobaltite).…”

Section: Figurementioning

confidence: 99%

“…46 Recently, Fei et al has prepared nitrogen-doped carbon dots@polyaniline hybrids, and the reported specific capacitance value is 785 F/g. 47 We have taken acetylene black as a carbon source to reduce the cost and prepared a new ternary composite (polyaniline-acetylene blackcopper cobaltite).…”

Section: Figurementioning

confidence: 99%

Polyaniline‐Acetylene black‐Copper cobaltite based ternary hybrid material with enhanced electrochemical properties and its use in supercapacitor electrodes

Das

Verma

2019

Int J Energy Res

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A new system based on Polyaniline-Acetylene black-Copper cobaltite composite has been prepared and affirmed by XRD, UV, SEM, FTIR, and EDS characterizations. The rod-like texture of ternary hybrid system offered excellent electrochemical activity in comparison to single and binary systems. CV and CD results revealed outstanding redox behavior of the ternary hybrid electrodes. Ternary electrode (PACC) presented the highest specific capacitance value of 690 F/g at 1 mA/cm 2 current density. PACC electrode based symmetric supercapacitor had a specific capacitance of 137.25 Fg -1 at 1 mA/cm 2 of current density. PACC symmetric supercapacitor had the highest specific power and specific energy of 3308.85 W.kg -1 and 19.064 Wh.kg -1 , respectively. The ternary system provides less charge transfer resistance values compared to all other systems. Thermal stability of the ternary composite is way better than polyaniline, which is due to the contribution of copper cobaltite and acetylene black. The overwhelming characteristics of the ternary hybrid composite bring it to the limelight as an excellent candidate in the field of supercapacitors.

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Morphology‐dependent electrochemical performance of nitrogen‐doped carbon dots@polyaniline hybrids for supercapacitors

Cited by 28 publications

References 52 publications

High‐performance activated carbons for electrochemical double layer capacitors: Effects of morphology and porous structures

High‐performance activated carbons for electrochemical double layer capacitors: Effects of morphology and porous structures

In‐situ formation and intercalation of carbon dots induced high‐yield 1T‐molybdenum disulfide as electrode materials

Polyaniline‐Acetylene black‐Copper cobaltite based ternary hybrid material with enhanced electrochemical properties and its use in supercapacitor electrodes

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