Thin, flexible supercapacitors made from carbon nanofiber electrodes decorated at room temperature with manganese oxide nanosheets

Author	Nataraj, S.K.
Author	Song, Q.
Author	Al-Muhtaseb, S.A.
Author	Dutton, S.E.
Author	Zhang, Q.
Author	Sivaniah, E.
Available date	2022-11-28T08:18:28Z
Publication Date	2013
Publication Name	Journal of Nanomaterials
Resource	Scopus
Resource	2-s2.0-84884826659
URI	http://dx.doi.org/10.1155/2013/272093
URI	http://hdl.handle.net/10576/36757
Abstract	We report the fabrication and electrochemical performance of a flexible thin film supercapacitor with a novel nanostructured composite electrode. The electrode was prepared by in situ coprecipitation of two-dimensional (2D) MnO2 nanosheets at room temperature in the presence of carbon nanofibers (CNFs). The highest specific capacitance of 142 F/g was achieved for CNFs-MnO2 electrodes in sandwiched assembly with PVA-H4SiW12O40nH2O polyelectrolyte separator.
Language	en
Publisher	Hindawi Publishing Corporation
Subject	Electrochemical performance Flexible thin films Manganese oxide nanosheets Nanostructured composites Room temperature Situ co-precipitation Specific capacitance Super capacitor Carbon nanofibers Electrodes Manganese oxide Nanosheets Electrolytic capacitors
Title	Thin, flexible supercapacitors made from carbon nanofiber electrodes decorated at room temperature with manganese oxide nanosheets
Type	Article
Volume Number	2013
dc.accessType	Open Access