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The role of defects on the structural and magnetic properties of Nb2O5

2015; Elsevier BV; Volume: 653; Linguagem: Inglês

10.1016/j.jallcom.2015.09.019

1873-4669

L. K. S. Herval, Driele von Dreifus, Adriano C. Rabelo, Ariano De Giovanni Rodrigues, Ernesto C. Pereira, Y. Galvão Gobato, A. J. A. de Oliveira, Marcio Peron Franco de Godoy,

Semiconductor materials and devices

Defects play a fundamental issue on physical properties of wide bandgap materials. We present here the effect of preparation and annealing conditions on the properties of Nb2O5 synthesized by Pechini method. Structural characterization, Raman spectroscopy and magnetic measurements show significant experimental fingerprints related to the presence of oxygen defects in the system. The increase of oxygen vacancies causes an irreversible phase transition from pseudohexagonal (TT-phase) to orthorhombic phase (T-phase). The critical temperature range around 400 °C during thermal annealing is derived by in-situ Raman measurements applying the theory of phonon anharmonicity. We observed that the values of Nb2O5 Curie constants as (4.37 ± 0.06)10−4 emu K/mol and (20.50 ± 0.08)10−4 emu K/mol for TT- and T-phases respectively. The oxygen vacancies are the responsible for 1021–1022 effective magnetic moments per mol related to paramagnetic behavior.