Co2Mo3O8/Co3O4 micro-flowers architectured material for high-performance supercapacitor electrodes

Engineering novel nano/microarchitectures has attracted great attention because they can provide conductive, morphological, and remarkable electrochemical properties in energy storage and energy conversion fields. Herein, the Co2Mo3O8/Co3O4 (CMO/CO) micro-flower-like architectures were prepared via...

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Bibliographic Details
Published in:Journal of alloys and compounds 2022-12, Vol.928, p.167063, Article 167063
Main Authors: Ankinapalli, Obula Reddy, Krishna, B.N. Vamsi, Hua, Yongbin, Yu, Jae Su
Format: Article
Language:English
Subjects:
Activated carbon
Asymmetric supercapacitors
Carbon monoxide
Co2Mo3O8/Co3O4 (CMO/CO) micro-flower-like architectures
Cobalt oxides
Computer architecture
Electrochemical analysis
Electrochemical properties
Electrodes
Electronic devices
Energy conversion
Energy storage
Flowers
Portable equipment
Supercapacitors
Transition metal oxides
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Summary:Engineering novel nano/microarchitectures has attracted great attention because they can provide conductive, morphological, and remarkable electrochemical properties in energy storage and energy conversion fields. Herein, the Co2Mo3O8/Co3O4 (CMO/CO) micro-flower-like architectures were prepared via a simple one-step hydrothermal technique. The CMO/CO-based electrode samples were investigated at different reaction temperatures of 120, 150, and 180 °C. The prepared CMO/CO-150 material revealed a large specific surface area (108.57 m2 g−1). The excellent specific capacity value of 301 mAh g−1 (2142 F g−1) at 1 A g−1 of current density was obtained by the optimized CMO/CO-150 sample. Moreover, after successfully performing 5000 cycles at 20 mA cm−2, the CMO/CO electrode represented a capacity retention of 92% with 99% coulombic efficiency. Additionally, the designed pouch-like asymmetric supercapacitor (ASC) with the optimized CMO/CO-150 material and activated carbon material delivered high energy and power density values of 34.38 Wh kg−1 and 2987.07 W kg−1, respectively. For testing practical applications, the fabricated ASC device was also employed to power portable electronic devices. Consequently, the achieved outstanding electrochemical results suggest that CMO/CO electrodes are favorable material for energy storage applications. [Display omitted] •Co2Mo3O8/Co3O4 micro-flowers architectures were prepared by a simple hydrothermal method.•The CMO/CO-150 material exhibited excellent specific surface area of 108.57 m2 g−1.•The CMO/CO-150 electrode revealed a specific capacity of 301 mAh g−1 at 1 A g−1.•The CMO/CO-150 electrode exhibited 92% of capacity retention after 5000 cycles at 20 mA cm−2.•Using two ASC devices, different portable electronic devices were powered.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2022.167063