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Dublin Core
The Dublin Core metadata element set is common to all Omeka records, including items, files, and collections. For more information see, http://dublincore.org/documents/dces/.
Title
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Electrochemical performance of ZnxCo3-xO4/N-doped rGO nanocomposites for energy storage application
Subject
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Co<sub>3</sub>O<sub>4</sub>; CV; GCD; Nanocomposites; rGO; ZnCo<sub>2</sub>O<sub>4</sub>
Description
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In this study, nanocomposites consisting of zinc-doped cobalt oxides with a spinel structure and nitrogen-doped reduced graphene oxide (ZnxCo3-xO4 (x = 0 and 1))/N-doped rGO) were synthesized using a solvothermal method. The synthesized materials were investigated using XRD, TEM, EDS, BET, Raman, and XPS for their phase formation, morphology, elemental composition, surface area, and chemical states. XRD analysis revealed that the metal oxides (Co3O4 and ZnCo2O4) present in the composites exhibited a single-phase cubic spinel structure, with a nanocrystalline nature and crystallite size ranging from 8 nm to 20 nm. Raman and TEM analyses revealed the co-existence of metal oxide nanoparticles and N-doped rGO phases in the composites. Electrodes were fabricated using the synthesized nanocomposite materials and subjected to electrochemical testing, including CV, GCD and EIS. The specific capacitiance (Cs) of samples determined to be 181 F/g and 234 F/g for CO/NrGO (Co3O4/N-doped rGO) and ZCO/NrGO (ZnCo2O4/N-doped rGO) nanocomposites, respectively, at lower current density (0.5 A/g). At all current densities, the CS of ZCO/NrGO nanocomposite electrode is observed to be higher than the CO/NrGO nanocomposite, probably due to structural defects and uniform anchoring of ZnCo2O4 particles over the layers of NrGO. The ZCO/NrGO composite electrode exhibits ?86 % capacitance retention after 3000 cycles. 2024 Elsevier B.V.
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Kalpana S.; Bhat V.S.; Hegde G.; Anantharamaiah P.N.
Source
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Materials Chemistry and Physics, Vol-319
Publisher
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Elsevier Ltd
Date
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2024-01-01
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<a href="https://doi.org/10.1016/j.matchemphys.2024.129331" target="_blank" rel="noreferrer noopener">https://doi.org/10.1016/j.matchemphys.2024.129331</a>
<br /><br /><a href="https://www.scopus.com/inward/record.uri?eid=2-s2.0-85190338794&doi=10.1016%2Fj.matchemphys.2024.129331&partnerID=40&md5=517284b4ea1af312f14b8b5f0dc72c9d" target="_blank" rel="noreferrer noopener">https://www.scopus.com/inward/record.uri?eid=2-s2.0-85190338794&doi=10.1016%2fj.matchemphys.2024.129331&partnerID=40&md5=517284b4ea1af312f14b8b5f0dc72c9d</a>
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Restricted Access
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ISSN: 2540584; CODEN: MCHPD
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Online
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English
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Article
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Kalpana S., Department of Chemistry, Faculty of Mathematical and Physical Sciences, M. S. Ramaiah University of Applied Sciences, Bangalore, 560058, India; Bhat V.S., Centre for Nano-materials & Displays (CND), B. M. S. College of Engineering, Bull Temple Road, Bangalore, 560019, India; Hegde G., Department of Chemistry, CHRIST (Deemed to be University), Hosur RD, Bhavani Nagar, S. G. Palya, Bangalore, 560029, India; Anantharamaiah P.N., Department of Chemistry, Faculty of Mathematical and Physical Sciences, M. S. Ramaiah University of Applied Sciences, Bangalore, 560058, India