Fabrication of Ultrathin rGO Sheet-Wrapped Mixed-Phase MnSe2/CoSe2 Nanocomposite for High-Performance Supercapacitor Electrodes with Long-Term Stability
Binary transition metal chalcogenides and reduced graphene oxide exhibit significant potential for energy storage devices due to their superior electronic conductivity and capacity, surpassing that of single-metal sulfides, owing to their more extensive redox reactions. In this report, we introduce...
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| Published in: | Journal of electronic materials Vol. 53; no. 9; pp. 5273 - 5285 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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01-09-2024
Springer Nature B.V |
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| Abstract | Binary transition metal chalcogenides and reduced graphene oxide exhibit significant potential for energy storage devices due to their superior electronic conductivity and capacity, surpassing that of single-metal sulfides, owing to their more extensive redox reactions. In this report, we introduce a novel synthesis method for producing a mixed-phase MnSe
2
/CoSe
2
nanocomposite wrapped with reduced graphene oxide (rGO) sheets, designed specifically for supercapacitor applications. The MnSe
2
/CoSe
2
hybrid material was synthesized using an ultrasonic assisted hydrothermal technique, followed by the preparation of the rGO/MnSe
2
/CoSe
2
hybrid composite. The structural characterization was conducted employing x-ray diffraction (XRD), scanning electron microscopy (SEM), x-ray photoelectron spectroscopy (XPS) and Raman techniques. Brunauer–Emmett–Teller (BET) analysis demonstrated a significant specific surface area (66.5 m
2
/g) and a pore size distribution of 28.4 nm in rGO-MnSe
2
/CoSe
2
. The interconnected ultrathin rGO nanosheets and conductive carbon layer contributed to the exceptional conductivity and stability achieved by the rGO/MnSe
2
/CoSe
2
composite electrode. The electrochemical performance was assessed using a three-electrode setup in a 3 M KOH solution, with nickel foam as the current collector. The working electrode, consisting of rGO/MnSe
2
/CoSe
2
, acetylene black and PVDF in an 80:15:5 weight ratio, demonstrated specific capacitance of 1214 F g
−1
and cycling stability of 88% retention after 5000 cycles at 1 A g
−1
. An asymmetric supercapacitor, constructed using a tailored electrode composition, achieved energy density of 28.6 Wh kg
−1
at 2100 W kg
−1
and high power density of 888 W kg
−1
at 49.7 Wh kg
−1
.
Graphical Abstract |
|---|---|
| AbstractList | Binary transition metal chalcogenides and reduced graphene oxide exhibit significant potential for energy storage devices due to their superior electronic conductivity and capacity, surpassing that of single-metal sulfides, owing to their more extensive redox reactions. In this report, we introduce a novel synthesis method for producing a mixed-phase MnSe2/CoSe2 nanocomposite wrapped with reduced graphene oxide (rGO) sheets, designed specifically for supercapacitor applications. The MnSe2/CoSe2 hybrid material was synthesized using an ultrasonic assisted hydrothermal technique, followed by the preparation of the rGO/MnSe2/CoSe2 hybrid composite. The structural characterization was conducted employing x-ray diffraction (XRD), scanning electron microscopy (SEM), x-ray photoelectron spectroscopy (XPS) and Raman techniques. Brunauer–Emmett–Teller (BET) analysis demonstrated a significant specific surface area (66.5 m2/g) and a pore size distribution of 28.4 nm in rGO-MnSe2/CoSe2. The interconnected ultrathin rGO nanosheets and conductive carbon layer contributed to the exceptional conductivity and stability achieved by the rGO/MnSe2/CoSe2 composite electrode. The electrochemical performance was assessed using a three-electrode setup in a 3 M KOH solution, with nickel foam as the current collector. The working electrode, consisting of rGO/MnSe2/CoSe2, acetylene black and PVDF in an 80:15:5 weight ratio, demonstrated specific capacitance of 1214 F g−1 and cycling stability of 88% retention after 5000 cycles at 1 A g−1. An asymmetric supercapacitor, constructed using a tailored electrode composition, achieved energy density of 28.6 Wh kg−1 at 2100 W kg−1 and high power density of 888 W kg−1 at 49.7 Wh kg−1. Binary transition metal chalcogenides and reduced graphene oxide exhibit significant potential for energy storage devices due to their superior electronic conductivity and capacity, surpassing that of single-metal sulfides, owing to their more extensive redox reactions. In this report, we introduce a novel synthesis method for producing a mixed-phase MnSe 2 /CoSe 2 nanocomposite wrapped with reduced graphene oxide (rGO) sheets, designed specifically for supercapacitor applications. The MnSe 2 /CoSe 2 hybrid material was synthesized using an ultrasonic assisted hydrothermal technique, followed by the preparation of the rGO/MnSe 2 /CoSe 2 hybrid composite. The structural characterization was conducted employing x-ray diffraction (XRD), scanning electron microscopy (SEM), x-ray photoelectron spectroscopy (XPS) and Raman techniques. Brunauer–Emmett–Teller (BET) analysis demonstrated a significant specific surface area (66.5 m 2 /g) and a pore size distribution of 28.4 nm in rGO-MnSe 2 /CoSe 2 . The interconnected ultrathin rGO nanosheets and conductive carbon layer contributed to the exceptional conductivity and stability achieved by the rGO/MnSe 2 /CoSe 2 composite electrode. The electrochemical performance was assessed using a three-electrode setup in a 3 M KOH solution, with nickel foam as the current collector. The working electrode, consisting of rGO/MnSe 2 /CoSe 2 , acetylene black and PVDF in an 80:15:5 weight ratio, demonstrated specific capacitance of 1214 F g −1 and cycling stability of 88% retention after 5000 cycles at 1 A g −1 . An asymmetric supercapacitor, constructed using a tailored electrode composition, achieved energy density of 28.6 Wh kg −1 at 2100 W kg −1 and high power density of 888 W kg −1 at 49.7 Wh kg −1 . Graphical Abstract |
| Author | Krishnan, T. Santhana Babu, P. Sathish Praveen, M. Janakiraman, V. |
| Author_xml | – sequence: 1 givenname: T. Santhana orcidid: 0000-0003-4716-8364 surname: Krishnan fullname: Krishnan, T. Santhana email: santhanakrishnan.t@rajalakshmi.edu.in organization: Department of Electrical and Electronics Engineering, Rajalakshmi Engineering College (Autonomous) – sequence: 2 givenname: P. Sathish surname: Babu fullname: Babu, P. Sathish organization: Department of Electrical and Electronics Engineering, University College of Engineering – sequence: 3 givenname: M. surname: Praveen fullname: Praveen, M. organization: Department of Electronics and Communication Engineering, Saveetha Engineering College – sequence: 4 givenname: V. surname: Janakiraman fullname: Janakiraman, V. organization: Department of Electronics and Communication Engineering, Saveetha Institute of Medical and Technical Sciences |
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| Keywords | three electrode system rGO CoSe MnSe synergistic effect supercapacitor |
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| Title | Fabrication of Ultrathin rGO Sheet-Wrapped Mixed-Phase MnSe2/CoSe2 Nanocomposite for High-Performance Supercapacitor Electrodes with Long-Term Stability |
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