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Journal of Electroceramics

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18-04-2018

High dielectric response of cobalt aluminate mullite (CAM) nanocomposite over cobalt aluminate mullite polymer (CAMP) nanocomposite in PVDF matrix

Authors: Biplab Kumar Paul, Debasis Roy, Smarajit Manna, Papiya Nandy, Sukhen Das

Published in: Journal of Electroceramics | Issue 4/2018

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Abstract

In this communication we have compared the dielectric behavior of cobalt aluminate mullite (CAM) nanocomposite and cobalt aluminate mullite polymer (CAMP) nanocomposite with different molar concentration of Co ⁺² ions. The study of dielectric property of the CAM samples as well as that of the CAMP samples at room temperature shows that at all concentrations the dielectric constant is higher than pure mullite and there is a critical concentration of Co ⁺², where maximum enhancement of dielectric property occurs. This paper demonstrates that the loading of a conductive component into a highly insulating matrix is an effective way to fabricate composites with high permittivity as well as a charge storage material. We have designed a device using CAM as the electrode material and CAMP as the separator to compare it with a commercial Li-polymer ion mobile battery. We observed that the charge storage ability of the composite system is better than the commercial Li-polymer ion mobile battery. Our device persists for more than 24 h while the maximum voltage recorded by the device is 0.885 V, whereas the maximum voltage recorded by the conventional commercial Li-polymer ion mobile battery is 0.566 V.

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Title: High dielectric response of cobalt aluminate mullite (CAM) nanocomposite over cobalt aluminate mullite polymer (CAMP) nanocomposite in PVDF matrix
Authors: Biplab Kumar Paul
Debasis Roy
Smarajit Manna
Papiya Nandy
Sukhen Das
Publication date: 18-04-2018
Publisher: Springer US
Published in: Journal of Electroceramics / Issue 4/2018
Print ISSN: 1385-3449
Electronic ISSN: 1573-8663
DOI: https://doi.org/10.1007/s10832-018-0136-z

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