A mesoporous ternary transition metal oxide nanoparticle composite for high-performance asymmetric supercapacitor devices with high specific energy

Deyab, Nourhan M.; Taha, Manar M.; Allam, Nageh K.

doi:10.1039/d1na00694k

Cited by 18 publications

(13 citation statements)

References 48 publications

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“…4a. 16 The high resolution Mn 2p spectrum showed two main peaks at 654.6 and 642.5 eV referring to Mn 2p 3/2 and Mn 2p 1/2 , respectively. [60][61][62] Upon Gaussian tting, the overlapped Mn 2p 3/2 peak is deconvoluted into three peaks at 642, 643.8, and 647.2 eV as shown in Fig.…”

Section: Fabrication Of Asymmetric Supercapacitor Devicesmentioning

confidence: 91%

“…As a result, developing supercapacitors with high energy density while maintaining their power density and cycling stability has become a critical challenge. [15][16][17] Transition metals are potential low-cost and environmentally friendly materials for energy storage and conversion technologies, due to their higher cycle stability compared to conductive polymers (CPs), which suffer from polymeric chain swelling and shrinking. [18][19][20] Additionally, transition metals are known for their higher specic capacitance compared to carbon-based materials.…”

Section: Introductionmentioning

confidence: 99%

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Binder-free Mn–V–Sn oxyhydroxide decorated with metallic Sn as an earth-abundant supercapattery electrode for intensified energy storage

Allam

Ghanem

Taha

et al. 2022

Sustainable Energy Fuels

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Section: Fabrication Of Asymmetric Supercapacitor Devicesmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Binder-free Mn–V–Sn oxyhydroxide decorated with metallic Sn as an earth-abundant supercapattery electrode for intensified energy storage

Allam

Ghanem

Taha

et al. 2022

Sustainable Energy Fuels

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“…[9][10][11] Considering various electrode materials into account, especially, transition metal oxides (TMOs) have been greatly accepted as favourable candidate for SCs owing to their relatively cost-effective, high-theoretical capacitance, and excellent electrochemical properties. [12][13][14][15] Besides, TMOs involve Faradic redox kinetics rather than the pure electrostatic charge storage behaviour, which thus not only dramatically mounts the capacitance but also the energy density of the SCs. [16][17][18][19] In particular, the binary cobalt molybdate (CoMoO 4 ) has received tremendous attention in recent years as a perspective batterytype electrode material because of its many impressive advantages, including fast and reversible redox kinetics, high capacity, multivalence distributions, and non-toxicity.…”

Section: Introductionmentioning

confidence: 99%

“…Considering various electrode materials into account, especially, transition metal oxides (TMOs) have been greatly accepted as favourable candidate for SCs owing to their relatively cost‐effective, high‐theoretical capacitance, and excellent electrochemical properties 12‐15 . Besides, TMOs involve Faradic redox kinetics rather than the pure electrostatic charge storage behaviour, which thus not only dramatically mounts the capacitance but also the energy density of the SCs 16‐19 .…”

Section: Introductionmentioning

confidence: 99%

Impact of oxygen‐defects induced electrochemical properties of three‐dimensional flower‐like CoMoO ₄ nanoarchitecture for supercapacitor applications

Sivakumar

Raj

Kulandaivel

et al. 2022

Intl J of Energy Research

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The rational strategy to design the well-ordered morphology of the metal oxides with defective engineering and tailoring them into specific electrode fabrication can significantly improve their electrochemical properties for high-performance energy storage systems. Herein, we adopted an effective strategy to introduce oxygen-defect into the well-ordered three-dimensional flower-like CoMoO 4 nanoarchitecture. The Co-Mo precursor leads to the introduction of oxygendefects into the CoMoO 4 (rCMO) nanoarchitecture during the heat-treatment under an oxygen-controlled environment (argon). The oxygen-defects in the material could facilitate abundant electroactive sites and intrinsically enhance the conductivity and supercapacitor performance. The oxygen-defect CoMoO 4 (rCMO) exhibits a specific capacity of 531 mAh g À1 at a current density of 1 A g À1 compared to the pristine CoMoO 4 (CMO; ambient atmosphere) of 322 mAh g À1 under the same current density. Meanwhile, the fabricated hybrid supercapacitor (HSC) of rCMO//AC provides a maximum specific capacitance of 159 F g À1 . Further, it distributes an energy density of 49.87 Wh kg À1 at the power density of 845.45 W kg À1 with an excellent cyclic life of ~91.03% over 10 000 cycles.

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“…Nowadays metal oxide nanoparticles are enormously used in different applications such electronics, [15] cosmetics, [16] catalysis, [17] storage devices, [18] drug delivery, [19] medicine, [20] and biomedical. [21] Transition metal based metallic oxide has become the emerging class and gained much attention of scientist and researchers.…”

Section: Introductionmentioning

confidence: 99%

Recent advances in morphologically controlled synthesis of graphene oxide‐based nanocomposite as catalyst and fuel additive

Shahbaz

Jamil

Bibi

et al. 2022

J of Physical Organic Chem

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Nanocomposites become very important because of their reduce size (1–100 nm), large surface area, excellent optical magnetic, and electrical and mechanical properties. In many applications, graphene oxide‐based metallic nanocomposites emerged as an outstanding class of nanomaterials that are used for different applications. (GO‐ZnO) nanocomposite has gained more importance in recent years. The present research study is designed to synthesize nanocomposites and aims to monitor its characteristics and applications. Graphene oxide is synthesized by Hummers' method. Metal salts are used as precursor source of respective metal oxides. Wet chemical synthesis method such as solvothermal/hydrothermal and copreciptation processes is used because of its low cost and easy applications as compared with other processes used in the past, which have been costly and difficult to handle. Scanning electron microscopy (SEM) and X‐ray diffraction (XRD) techniques are used to discriminate GO‐Zinc oxide metallic nanocomposites. XRD is used to investigate the crystal structure, and SEM images showed that the synthesized GO/ZnO nanocomposites is irregular in shape with merged surfaces and the size is 100 nm−1 μm. The dark and light color shows hollow morphology of the nanocomposites, and particles are merged with each other and irregular in shape. The obtained data are statistically analyzed by using regression analysis for the further interpretations. VESTA, MATCH, Origin pro is used for the interpretation of XRD results of synthesized nanocomposites. Applications of metallic (GO/Zn) nanocomposite as catalytic activity and colorimetry, flash point, fire point, cloud point, pour point, specific gravity, and viscosity and for the degradation of Drimarene Red K‐4BL is performed.

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A mesoporous ternary transition metal oxide nanoparticle composite for high-performance asymmetric supercapacitor devices with high specific energy

Abstract: We report on the optimized fabrication and electrochemical properties of ternary metal oxide (Ti-Mo-Ni-O) nanoparticles as electrochemical supercapacitor electrode materials. The structural, morphological, and elemental composition of the fabricated Ti-Mo-Ni-O...

Cited by 18 publications

References 48 publications

Binder-free Mn–V–Sn oxyhydroxide decorated with metallic Sn as an earth-abundant supercapattery electrode for intensified energy storage

Binder-free Mn–V–Sn oxyhydroxide decorated with metallic Sn as an earth-abundant supercapattery electrode for intensified energy storage

Impact of oxygen‐defects induced electrochemical properties of three‐dimensional flower‐like CoMoO ₄ nanoarchitecture for supercapacitor applications

Recent advances in morphologically controlled synthesis of graphene oxide‐based nanocomposite as catalyst and fuel additive

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A mesoporous ternary transition metal oxide nanoparticle composite for high-performance asymmetric supercapacitor devices with high specific energy

Abstract: We report on the optimized fabrication and electrochemical properties of ternary metal oxide (Ti-Mo-Ni-O) nanoparticles as electrochemical supercapacitor electrode materials. The structural, morphological, and elemental composition of the fabricated Ti-Mo-Ni-O...

Cited by 18 publications

References 48 publications

Binder-free Mn–V–Sn oxyhydroxide decorated with metallic Sn as an earth-abundant supercapattery electrode for intensified energy storage

Binder-free Mn–V–Sn oxyhydroxide decorated with metallic Sn as an earth-abundant supercapattery electrode for intensified energy storage

Impact of oxygen‐defects induced electrochemical properties of three‐dimensional flower‐like CoMoO 4 nanoarchitecture for supercapacitor applications

Recent advances in morphologically controlled synthesis of graphene oxide‐based nanocomposite as catalyst and fuel additive

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Impact of oxygen‐defects induced electrochemical properties of three‐dimensional flower‐like CoMoO ₄ nanoarchitecture for supercapacitor applications