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dc.contributor.authorGlasser, Leslie
dc.date.accessioned2017-09-27T10:20:39Z
dc.date.available2017-09-27T10:20:39Z
dc.date.created2017-09-27T09:48:03Z
dc.date.issued2017
dc.identifier.citationGlasser, L. 2017. Systematic Thermodynamics of Layered Perovskites: Ruddlesden-Popper Phases. Inorganic Chemistry. 56 (15): pp. 8920-8925.
dc.identifier.urihttp://hdl.handle.net/20.500.11937/56732
dc.identifier.doi10.1021/acs.inorgchem.7b00884
dc.description.abstract

Perovskite, CaTiO 3 , is the prototype of an extensive group of materials. They are capable of considerable chemical modification, with the further capability of undergoing structural modification by the intercalation of thin sheets of intrusive materials (both inorganic and organic) between the cubic perovskite layers, to form a range of "layered" perovskites. These changes bring about alterations in their electronic, structural, and other properties, permitting some "tuning" toward specific ends. This paper collects the limited known thermodynamic data for layered perovskites of various chemical compositions and demonstrates by example that the thermodynamic layer values are substantially additive. This additivity may be exploited by summing properties of the constituent oxides, by adding differences between adjacent compositions within a series, or even by substitution of oxides for one another, thus permitting prediction beyond the known range of compositions. Strict additivity implies full reversibility so that the additive product may be unstable and may undergo structural changes, producing materials with new and potentially useful properties such as ferroelectricity, polarity, giant magnetoresistance, and superconductivity.

dc.publisherAmerican Chemical Society
dc.titleSystematic Thermodynamics of Layered Perovskites: Ruddlesden-Popper Phases
dc.typeJournal Article
dcterms.source.volume56
dcterms.source.number15
dcterms.source.startPage8920
dcterms.source.endPage8925
dcterms.source.issn0020-1669
dcterms.source.titleInorganic Chemistry
curtin.departmentNanochemistry Research Institute
curtin.accessStatusFulltext not available


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