Nanostructured metal oxides as electrode materials for electrochemical capacitors

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dc.contributor.author Konstantinov, K
dc.contributor.author Wang, G
dc.contributor.author Lao, ZJ
dc.contributor.author Liu, HK
dc.date.accessioned 2012-02-02T10:57:58Z
dc.date.issued 2009-01
dc.identifier.citation Journal of Nanoscience & Nanotechnology, 2009, 9 (2), pp. 1263 - 1267
dc.identifier.issn 1533-4880
dc.identifier.other C1UNSUBMIT en_US
dc.identifier.uri http://hdl.handle.net/10453/15473
dc.description.abstract In this study, nanostructured transition metal oxides, such as Co3O4, NiO and MnO2 were comprehensively studied and reported as promising electrode materials for electrochemical capacitors. The materials have been obtained by solution or spray solution techniques, which are cost-effective and promising for industry application. All materials feature a large specific surface area, which can reach up to 270 m2/g. The high surface area is a compulsory condition for high capacitance. The best MnO2 materials yielded up to 406 F/g.
dc.publisher American Scientific Publishers
dc.relation.isbasedon 10.1166/jnn.2009.C134
dc.title Nanostructured metal oxides as electrode materials for electrochemical capacitors
dc.type Journal Article
dc.parent Journal of Nanoscience & Nanotechnology
dc.journal.volume 2
dc.journal.volume 9
dc.journal.number 2 en_US
dc.publocation United States en_US
dc.publocation Hong Kong
dc.identifier.startpage 1263 en_US
dc.identifier.endpage 1267 en_US
dc.cauo.name SCI.Faculty of Science en_US
dc.conference Verified OK en_US
dc.conference IEEE Wireless Communications and Networking Conference
dc.for 0912 Materials Engineering
dc.personcode 109499
dc.percentage 100 en_US
dc.classification.name Materials Engineering en_US
dc.classification.type FOR-08 en_US
dc.edition en_US
dc.custom en_US
dc.date.activity en_US
dc.date.activity 2007-03-11
dc.location.activity en_US
dc.location.activity Hong Kong
dc.description.keywords Nanostructured Oxides, Spray Sol ution Method, Electrochemical Capacitors
pubs.embargo.period Not known
pubs.organisational-group /University of Technology Sydney
pubs.organisational-group /University of Technology Sydney/Faculty of Science
pubs.organisational-group /University of Technology Sydney/Strength - Materials and Technology for Energy Efficiency
utslib.copyright.status Closed Access
utslib.copyright.date 2015-04-15 12:17:09.805752+10
pubs.consider-herdc false
utslib.collection.history School of Chemistry and Forensic Science (ID: 339)
utslib.collection.history School of Chemistry and Forensic Science (ID: 339)
utslib.collection.history Closed (ID: 3)


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