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A (3 + 3)-dimensional "hypercubic" oxide-ionic conductor: Type II Bi 2 O 3 -Nb 2 O 5

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Ling, Chris David; Schmid, Siegbert; Blanchard, Peter E. R.; Petricek, V; McIntyre, Garry J; Sharma, N; Maljuk, Andrey; Yaremchenko, Aleksey; Kharton, Vladislav; Gutmann, M J; Withers, Raymond

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The high-temperature cubic form of bismuth oxide, δ-Bi 2O3, is the best intermediate-temperature oxide-ionic conductor known. The most elegant way of stabilizing δ-Bi 2O3 to room temperature, while preserving a large part of its conductivity, is by dopi

dc.contributor.authorLing, Chris David
dc.contributor.authorSchmid, Siegbert
dc.contributor.authorBlanchard, Peter E. R.
dc.contributor.authorPetricek, V
dc.contributor.authorMcIntyre, Garry J
dc.contributor.authorSharma, N
dc.contributor.authorMaljuk, Andrey
dc.contributor.authorYaremchenko, Aleksey
dc.contributor.authorKharton, Vladislav
dc.contributor.authorGutmann, M J
dc.contributor.authorWithers, Raymond
dc.date.accessioned2015-12-13T22:23:11Z
dc.identifier.issn0002-7863
dc.identifier.urihttp://hdl.handle.net/1885/72643
dc.description.abstractThe high-temperature cubic form of bismuth oxide, δ-Bi 2O3, is the best intermediate-temperature oxide-ionic conductor known. The most elegant way of stabilizing δ-Bi 2O3 to room temperature, while preserving a large part of its conductivity, is by dopi
dc.publisherAmerican Chemical Society
dc.sourceJournal of the American Chemical Society
dc.subjectKeywords: Experimental datum; Floating zone method; Intermediate temperatures; Pseudo-binary systems; Single-crystal neutron diffraction; Superspace symmetry; Three-dimensional networks; X-ray diffraction data; Complex networks; Neutron diffraction; Niobium oxide;
dc.titleA (3 + 3)-dimensional "hypercubic" oxide-ionic conductor: Type II Bi 2 O 3 -Nb 2 O 5
dc.typeJournal article
local.description.notesImported from ARIES
local.identifier.citationvolume135
dc.date.issued2013
local.identifier.absfor030206 - Solid State Chemistry
local.identifier.ariespublicationf5625xPUB3355
local.type.statusPublished Version
local.contributor.affiliationLing, Chris David, University of Sydney
local.contributor.affiliationSchmid, Siegbert, University of Sydney
local.contributor.affiliationBlanchard, Peter E. R., University of Sydney
local.contributor.affiliationPetricek, V, Academy of Sciences of the Czech Republic
local.contributor.affiliationMcIntyre, Garry J, Institut Laue-Langevin
local.contributor.affiliationSharma, N, University of Sydney
local.contributor.affiliationMaljuk, Andrey, Leibniz Institute for Solid State and Materials Research
local.contributor.affiliationYaremchenko, Aleksey, University of Aveiro
local.contributor.affiliationKharton, Vladislav, University Aveiro Portugal
local.contributor.affiliationGutmann, M J, Science and Technology Facilities Council
local.contributor.affiliationWithers, Raymond, College of Physical and Mathematical Sciences, ANU
local.description.embargo2037-12-31
local.bibliographicCitation.issue17
local.bibliographicCitation.startpage6477
local.bibliographicCitation.lastpage6484
local.identifier.doi10.1021/ja3109328
local.identifier.absseo970103 - Expanding Knowledge in the Chemical Sciences
dc.date.updated2016-02-24T09:09:40Z
local.identifier.scopusID2-s2.0-84877066919
local.identifier.thomsonID000318469100022
CollectionsANU Research Publications

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