One-pot hydrothermal preparation of hierarchical manganese oxide nanorods for high-performance symmetric supercapacitors

Hierarchical α-MnO2 nanorods prepared by one-pot hydrothermal method for high-performance symmetric supercapacitors with high capacitance and excellent stability. [Display omitted] An eco-friendly, new, and controllable approach for the preparation of manganese oxide (α-MnO2) nanorods has been intro...

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Published inJournal of energy chemistry Vol. 65; pp. 116 - 126
Main Authors Pandit, Bidhan, Goda, Emad S., Abu Elella, Mahmoud H., ur Rehman, Aafaq, Eun Hong, Sang, Rondiya, Sachin R., Barkataki, Pranay, Shaikh, Shoyebmohamad F., Al-Enizi, Abdullah M., El-Bahy, Salah M., Ro Yoon, Kuk
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.02.2022
Subjects
High energy density
Rietveld refinement
Symmetrical supercapacitors
α-MnO2 nanorods
Symmetrical supercapacitors
Rietveld refinement
α-MnO2 nanorods
High energy density
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Summary:Hierarchical α-MnO2 nanorods prepared by one-pot hydrothermal method for high-performance symmetric supercapacitors with high capacitance and excellent stability. [Display omitted] An eco-friendly, new, and controllable approach for the preparation of manganese oxide (α-MnO2) nanorods has been introduced using hydrothermal reaction for supercapacitor application. The in-depth crystal structure analysis of α-MnO2 is analyzed by X-ray Rietveld refinement by using FullProf program with the help of pseudo-Voigt profile function. The developed α-MnO2 electrode attains a remarkable capacitance of 577.7 F/g recorded at a current density value of 1 A/g with an excellent cycle life when is used for 10,000 repeated cycles due to the porous nanorod-morphology assisting the ease penetration of electrolyte ions into the electroactive sites. The diffusive and capacitive contributions of the electrode have been estimated by considering standard numerical packages in Python. After successfully assembling the aqueous symmetric supercapacitor (SSC) cell by utilizing the as-prepared α-MnO2, an excellent capacitance of 163.5 F/g and energy density of 58.1 Wh/kg at the constant current density of 0.5 A/g are obtained with an expanded potential frame of 1.6 V. Moreover, the cell has exceptionally withstood up to 10,000 cycles with an ultimate capacitance retention of 94.1% including the ability to light an LED for 18 s. Such findings recommend the developed α-MnO2 electrode to be a highly felicitous electrode for the field of energy storage.
ISSN:2095-4956
DOI:10.1016/j.jechem.2021.05.028