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Effect of Microwave Power and Cu Doping on MnO<sub>2</sub> Nanostructures and Its Supercapacitor Performance

Surendra Jangu, Sudhir Kumar, K. Deepika, Chacko Jacob, Debabrata Pradhan

2023ACS Applied Electronic Materials31 citationsDOI

Abstract

The enhanced specific surface area of electrode active materials provides a convenient way for the flow of electrolytic ions, resulting in improved electrochemical energy storage performance. In this study, synthesis of Cu-doped MnO 2 nanomaterials was demonstrated using the microwave-assisted hydrothermal method. Upon reducing the microwave power from 400 to 250 W, the morphology of Cu-doped MnO 2 nanostructures changed from nanorods (∼50–100 nm diameter) to nanoflowers with ∼10–20 nm thick petals on the surface. The flower-like morphology shows enhanced supercapacitor performance with a specific capacitance value of 433.15 F g –1 at 0.5 A g –1 current density. This feature is due to the synergistic effect of the enhanced conductivity by Cu doping and increased Brunauer–Emmett–Teller (BET) specific surface area (144.35 m 2 g –1 ). Further, a two-electrode asymmetric supercapacitor (ASC) device was developed and it showed a maximum energy density of 77.78 Wh kg –1 at a power density of 1000 W kg –1 . The device showed capacitance retention up to 102.86% after 20,000 charge–discharge cycles at 20 A g –1 current density. This study suggests that the Cu-doped MnO 2 nanostructure is a promising electrode active material for enhanced supercapacitor performance with excellent rate capability.

Topics & Concepts

SupercapacitorMaterials scienceCapacitanceSpecific surface areaNanorodPower densityCurrent densityElectrodeDopingNanotechnologyNanostructureChemical engineeringElectrochemistryElectrolyteEnergy storageOptoelectronicsChemistryPower (physics)Physical chemistryQuantum mechanicsBiochemistryPhysicsCatalysisEngineeringSupercapacitor Materials and FabricationAdvanced battery technologies researchAdvancements in Battery Materials
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