G K Meenatchi scite author profile

G K Meenatchi

2Publications

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30Citation Statements Given

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Anna University, Chennai

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NanoCeO₂/conducting polymer based composite electrodes for high performance supercapacitor

Meenatchi

Velraj

2023

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The present research paper reports the structural, morphological and electrochemical properties of cerium oxide doped polythiophene nanocomposite. Polythiophene was first polymerized using the chemical oxidation polymerization method and further, it was mixed with an equal amount of cerium oxide (CeO2) nanoparticles by mechanical mixing. The initially generated polythiophene sample exhibited an amorphous character according to X-ray diffraction investigation, however the PTh–nCeO2 polymer nanocomposite displayed good crystallinity. The vibration bands of the PTh and PTh–nCeO2 polymer nanocomposites were further examined using Fourier-transform infrared spectroscopic studies. The morphology and elemental composition of the prepared samples were investigated using scanning electron microscope and energy dispersive X-ray analysis. The electrochemical performance of PTh and PTh–nCeO2 polymer nanocomposite was studied by cyclic voltammetry, Galvanostatic charge–discharge and electrochemical impedance spectroscopy measurements. The PTh–nCeO2 polymer nanocomposites demonstrated a high specific capacitance of 161 F g−1 at a current density of 1 A g−1 among the produced samples. The Nyquist plot (low-frequency area) and Bode plot (phase angle) electrochemical impedance tests revealed excellent capacitive performance. The PTh–nCeO2 polymer nanocomposites may be a good option for high-performance super capacitors, according to the findings.

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Influence of Silver Oxide Nanoparticles in the Enhancement of Electrochemical Properties of Binary Polymer Nanocomposite PTh-nAg2O

Meenatchi

Velraj

2023

Preprint

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In this study, a chemical oxidation polymerization method was used to create polythiophene. A binary polymer nanocomposite (PTh-nAg2O) was prepared by mechanically mixing polythiophene with silver oxide nanopowder. The Functional groups, bandgap energy, morphology and elemental composition of the sample were analyzed using FTIR, UV-Vis, SEM and EDX, respectively. At room temperature, the A.C. electrical conductivity was measured using a two-probe experimental setup in with a frequency range of 1 kHz to 10 MHz. Compared to polymer, the conductivity of the binary polymer nanocomposites improved by two orders of magnitude. Electrochemical experiments revealed that the binary polymer nanocomposite PTh-nAg2O has a maximum specific capacitance of 725 F/g at 10 mV/s. The EIS measurements revealed Nyquist plots, indicating that the polymer nanocomposite exhibits ideal capacitive behaviour.

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G K Meenatchi

NanoCeO₂/conducting polymer based composite electrodes for high performance supercapacitor

Influence of Silver Oxide Nanoparticles in the Enhancement of Electrochemical Properties of Binary Polymer Nanocomposite PTh-nAg2O

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G K Meenatchi

NanoCeO2/conducting polymer based composite electrodes for high performance supercapacitor

Influence of Silver Oxide Nanoparticles in the Enhancement of Electrochemical Properties of Binary Polymer Nanocomposite PTh-nAg2O

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NanoCeO₂/conducting polymer based composite electrodes for high performance supercapacitor