Sheet-like morphology CuCo2O4 bimetallic nanoparticles adorned on graphene oxide composites for symmetrical energy storage applications

Sivalingam Ramesh; K. Karuppasamy; Dhanasekaran Vikraman; P. Santhoshkumar; Chinna Bathula; Ramasubba Reddy Palem; A. Kathalingam; Hyun Seok Kim; Joo Hyung Kim; Heung Soo Kim

doi:10.1016/j.jallcom.2021.162182

Sheet-like morphology CuCo₂O₄ bimetallic nanoparticles adorned on graphene oxide composites for symmetrical energy storage applications

Sivalingam Ramesh, K. Karuppasamy, Dhanasekaran Vikraman, P. Santhoshkumar, Chinna Bathula, Ramasubba Reddy Palem, A. Kathalingam, Hyun Seok Kim, Joo Hyung Kim, Heung Soo Kim

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51 Scopus citations

Abstract

Sheet-like morphology of copper cobaltite/N-doped graphene oxide materials composite was synthesized by a thermal reduction process improved by sonication. These composite nanostructured materials were confirmed by analytical methods. The composite materials were fabricated as electrode for supercapacitor applications via CV, GCD, and EIS analysis in the presence of 5 M KOH solution. The CuO@NGO and CuCo₂O₄@NGO composite electrodes employing excellent morphology showed improved capacitance of (196 and 475) F.g⁻¹, respectively, at 0.5 A.g⁻¹, and excellent cyclic stability and retention (96.5%) in the continuous 10,000 charge–discharge cycles. The electrochemical description of the synthesized CuO@NGO and CuCo₂O₄@NGO materials composite showed excellent electrochemical properties and cyclic stability in the presence of 5 M KOH electrolyte. The composite design of CuO@NGO and CuCo₂O₄@NGO materials was developed for the symmetric electrochemical supercapacitor in the presence of 5 M KOH electrolyte.

Original language	English
Article number	162182
Journal	Journal of Alloys and Compounds
Volume	892
DOIs	https://doi.org/10.1016/j.jallcom.2021.162182
State	Published - 5 Feb 2022

Keywords

And supercapacitor application
Copper cobaltite (CuCoO)
Cyclic stability
Graphene oxide (NGO)
Three-electrode configuration

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10.1016/j.jallcom.2021.162182

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Ramesh, S., Karuppasamy, K., Vikraman, D., Santhoshkumar, P., Bathula, C., Palem, R. R., Kathalingam, A., Kim, H. S., Kim, J. H., & Kim, H. S. (2022). Sheet-like morphology CuCo₂O₄ bimetallic nanoparticles adorned on graphene oxide composites for symmetrical energy storage applications. Journal of Alloys and Compounds, 892, Article 162182. https://doi.org/10.1016/j.jallcom.2021.162182

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abstract = "Sheet-like morphology of copper cobaltite/N-doped graphene oxide materials composite was synthesized by a thermal reduction process improved by sonication. These composite nanostructured materials were confirmed by analytical methods. The composite materials were fabricated as electrode for supercapacitor applications via CV, GCD, and EIS analysis in the presence of 5 M KOH solution. The CuO@NGO and CuCo2O4@NGO composite electrodes employing excellent morphology showed improved capacitance of (196 and 475) F.g−1, respectively, at 0.5 A.g−1, and excellent cyclic stability and retention (96.5%) in the continuous 10,000 charge–discharge cycles. The electrochemical description of the synthesized CuO@NGO and CuCo2O4@NGO materials composite showed excellent electrochemical properties and cyclic stability in the presence of 5 M KOH electrolyte. The composite design of CuO@NGO and CuCo2O4@NGO materials was developed for the symmetric electrochemical supercapacitor in the presence of 5 M KOH electrolyte.",

keywords = "And supercapacitor application, Copper cobaltite (CuCoO), Cyclic stability, Graphene oxide (NGO), Three-electrode configuration",

author = "Sivalingam Ramesh and K. Karuppasamy and Dhanasekaran Vikraman and P. Santhoshkumar and Chinna Bathula and Palem, {Ramasubba Reddy} and A. Kathalingam and Kim, {Hyun Seok} and Kim, {Joo Hyung} and Kim, {Heung Soo}",

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AU - Ramesh, Sivalingam

AU - Karuppasamy, K.

AU - Vikraman, Dhanasekaran

AU - Santhoshkumar, P.

AU - Bathula, Chinna

AU - Palem, Ramasubba Reddy

AU - Kathalingam, A.

AU - Kim, Hyun Seok

AU - Kim, Joo Hyung

AU - Kim, Heung Soo

PY - 2022/2/5

Y1 - 2022/2/5

N2 - Sheet-like morphology of copper cobaltite/N-doped graphene oxide materials composite was synthesized by a thermal reduction process improved by sonication. These composite nanostructured materials were confirmed by analytical methods. The composite materials were fabricated as electrode for supercapacitor applications via CV, GCD, and EIS analysis in the presence of 5 M KOH solution. The CuO@NGO and CuCo2O4@NGO composite electrodes employing excellent morphology showed improved capacitance of (196 and 475) F.g−1, respectively, at 0.5 A.g−1, and excellent cyclic stability and retention (96.5%) in the continuous 10,000 charge–discharge cycles. The electrochemical description of the synthesized CuO@NGO and CuCo2O4@NGO materials composite showed excellent electrochemical properties and cyclic stability in the presence of 5 M KOH electrolyte. The composite design of CuO@NGO and CuCo2O4@NGO materials was developed for the symmetric electrochemical supercapacitor in the presence of 5 M KOH electrolyte.

AB - Sheet-like morphology of copper cobaltite/N-doped graphene oxide materials composite was synthesized by a thermal reduction process improved by sonication. These composite nanostructured materials were confirmed by analytical methods. The composite materials were fabricated as electrode for supercapacitor applications via CV, GCD, and EIS analysis in the presence of 5 M KOH solution. The CuO@NGO and CuCo2O4@NGO composite electrodes employing excellent morphology showed improved capacitance of (196 and 475) F.g−1, respectively, at 0.5 A.g−1, and excellent cyclic stability and retention (96.5%) in the continuous 10,000 charge–discharge cycles. The electrochemical description of the synthesized CuO@NGO and CuCo2O4@NGO materials composite showed excellent electrochemical properties and cyclic stability in the presence of 5 M KOH electrolyte. The composite design of CuO@NGO and CuCo2O4@NGO materials was developed for the symmetric electrochemical supercapacitor in the presence of 5 M KOH electrolyte.

KW - And supercapacitor application

KW - Copper cobaltite (CuCoO)

KW - Cyclic stability

KW - Graphene oxide (NGO)

KW - Three-electrode configuration

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Sheet-like morphology CuCo₂O₄ bimetallic nanoparticles adorned on graphene oxide composites for symmetrical energy storage applications

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