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Zr<sub>4</sub>O<sub>5</sub>N<sub>2</sub> − Intergrowth of Fluorite and Bixbyite Anion Layers Formed by Coupled Site-Selective Anion and Vacancy Ordering
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Citations
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2003
Year
Fluorite Structure TypesEngineeringSolid-state ChemistryChemistryInorganic MaterialQuantum MaterialsCoupled Site-selective AnionAnion SensingMaterials ScienceInorganic ChemistrySolid-state IonicCrystallographyCrystal Structure DesignVacancy OrderingCondensed Matter PhysicsApplied PhysicsIonic Defect SystemsDefect Fluorite Zr4o5n2Functional Materials
The defect fluorite Zr4O5N2 is presented. A simple layered intergrowth of the important bixbyite and fluorite structure types, it displays an A4X7 vacancy ordering alternative to that in the pyrochlore and other structures. This ordering is stabilized by proximity of the highly charged N3- anions to the bixbyite-type face diagonal vacancy neighbors in the initially cubic cation coordination environment of fluorite. The existence of this simple structure demonstrates the potential of substitution on the anion sublattice to control the structures of ionic defect systems.
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