PrVO4 under High Pressure: Effects on Structural, Optical, and Electrical Properties

In the pursuit of a systematic characterization of rare-earth vanadates under compression, in this work we present a multifaceted study of the phase behavior of zircon-type orthovanadate PrVO4 under high-pressure conditions, up to 24 GPa. We have found that PrVO4 undergoes a zircon to monazite trans...

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Published in:Inorganic chemistry 2020-12, Vol.59 (24), p.18325-18337
Main Authors: Bandiello, Enrico, Popescu, Catalin, da Silva, Estelina Lora, Sans, Juan Ángel, Errandonea, Daniel, Bettinelli, Marco
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container_issue 24
container_start_page 18325
container_title Inorganic chemistry
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creator Bandiello, Enrico
Popescu, Catalin
da Silva, Estelina Lora
Sans, Juan Ángel
Errandonea, Daniel
Bettinelli, Marco
description In the pursuit of a systematic characterization of rare-earth vanadates under compression, in this work we present a multifaceted study of the phase behavior of zircon-type orthovanadate PrVO4 under high-pressure conditions, up to 24 GPa. We have found that PrVO4 undergoes a zircon to monazite transition at around 6 GPa, confirming previous results found by Raman experiments. A second transition takes place above 14 GPa, to a BaWO4-II type structure. The zircon to monazite structural sequence is an irreversible first-order transition, accompanied by a volume collapse of about 9.6%. The monazite phase is thus a metastable polymorph of PrVO4. The monazite–BaWO4-II transition is found instead to be reversible and occurs with a similar volume change. Here we report and discuss the axial and bulk compressibility of all phases. We also compare our results with those for other rare-earth orthovanadates. Finally, by means of optical-absorption experiments and resistivity measurements, we determined the effect of pressure on the electronic properties of PrVO4. We found that the zircon–monazite transition produces a collapse of the band gap and an abrupt decrease in the resistivity. The physical reasons for this behavior are discussed. Density functional theory simulations support our conclusions.
doi_str_mv 10.1021/acs.inorgchem.0c02933
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title PrVO4 under High Pressure: Effects on Structural, Optical, and Electrical Properties
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