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Journal of Materials Science: Materials in Electronics

Erschienen in:

06.03.2020

Facile solvent deficient synthesis of mesoporous Co₃O₄ nanoparticles for electrochemical energy storage

verfasst von: R. M. Kore, B. J. Lokhande

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 8/2020

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Abstract

High surface area, mesoporous metal oxide nanoparticles play a significant role in the electrochemical charge storage applications. A facile solvent-deficient approach has been reported for synthesis of high surface area, mesoporous Co₃O₄ nanoparticles for the electrochemical energy storage. A precursor is obtained by grinding hydrated cobalt nitrate salt with ammonium bicarbonate for 25 min without addition of any true solvent. Further, the precursor is annealed at 300 ℃ to obtain Co₃O₄ from as prepared untreated precursor and after rinsing using deionized water. The XRD, Raman and FTIR spectra revealed the single-phase formation of Co₃O₄. SEM shows granular-type morphologies with two distinct size for two different samples. The BET analysis confirms mesoporous nature with specific surface area of 135 and 193 m²g⁻¹ for samples obtained from untreated and rinsed precursors. The maximum specific capacitance of Co₃O₄ obtained from untreated and rinsed samples are 184 and 349 Fg⁻¹. A very fewer equivalent series resistance of 2.24 Ω and 1.91 Ω has been observed, respectively.

Vorheriger Artikel Fabrication and characterization of Zn-ion-conducting solid polymer electrolyte films based on PVdF-HFP/Zn(Tf)2 complex system

Nächster Artikel Optical insights of indium-doped β–Ga2O3 nanoparticles and its luminescence mechanism

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Titel: Facile solvent deficient synthesis of mesoporous Co3O4 nanoparticles for electrochemical energy storage
verfasst von: R. M. Kore
B. J. Lokhande
Publikationsdatum: 06.03.2020
Verlag: Springer US
Erschienen in: Journal of Materials Science: Materials in Electronics / Ausgabe 8/2020
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-020-03170-8

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