Phase transition of BiNb1−xMnxO4−δ: Thermal analyse, NEXAFS, XPS and ESR-study

Phase transition of BiNb1−xMnxO4−δ: Thermal analyse, NEXAFS, XPS and ESR-study

The manganese-doped polymorphs of bismuth orthoniobate were studied using thermal analysis, ESR, XPS and NEXAFS spectroscopy. It was shown that the phase transition from the orthorhombic (α) to the triclinic (β) modification can be reversible and it can be achieved by prolonged calcination of sample...

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Bibliographic Details
Main Authors: Zhuk Nadezhda A., Belyy Vladimir A., Lutoev Vladimir P., Makeev Boris A., Nekipelov Sergey V., Sivkov Viktor N., Koroleva Aleksandra V., Beznosikov Dmitriy S., Feltsinger Lubov S.
Format: Article
Language:English
Published: De Gruyter 2019-09-01
Series:Reviews on Advanced Materials Science
Subjects:
phase transitions
thermal properties
esr
xps
nexafs
Online Access:https://doi.org/10.1515/rams-2019-0022
Description
Summary:The manganese-doped polymorphs of bismuth orthoniobate were studied using thermal analysis, ESR, XPS and NEXAFS spectroscopy. It was shown that the phase transition from the orthorhombic (α) to the triclinic (β) modification can be reversible and it can be achieved by prolonged calcination of samples at 750°C. The DSC curves revealed no thermal effects associated with the phase transformation from the triclinic to the orthorhombic modification near 750°C. In the ESR spectra, the absorption band with g = 3.8 characterized by sextet structure disappeared during the phase transformation from the - to the -form and only the broad component with average intensity was observed at g = 2.2-2.0. According to NEXAFS spectroscopy data, the content of oxidized Mn(III) atoms increased and the content of Mn(II) decreased in the orthorhombic polymorph obtained at 750°C from the tri-clinic modification.
ISSN:1605-8127

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