4.7 Article

Multiferroic, Phonon and Optical Properties of Pure and Ion-Doped YFeO3 Nanoparticles

Journal

NANOMATERIALS
Volume 11, Issue 10, Pages -

Publisher

MDPI
DOI: 10.3390/nano11102731

Keywords

ion-doped YFeO3 nanoparticles; magnetization; polarization; phonon energy; band gap; microscopic model

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The study theoretically investigated the magnetic, electric, phonon, and optical properties of pure and ion-doped orthorhombic YFeO3 nanoparticles. It was found that the spontaneous magnetization in YFeO3 decreases with decreasing particle size, while shape and ion doping can affect the magnetization strength. The influence of different factors on the phonon energy and band gap energy was also discussed, suggesting potential applications of doping effects.
The magnetic, electric, phonon and optical properties of pure and ion-doped orthorhombic YFeO3 nanoparticles are studied for the first time theoretically. The spontaneous magnetization Ms in YFeO3 decreases with decreasing particle size. Ms is also shape dependent. The magnetization increases by Co and Er ion doping and decreases by Ti doping, which is caused by the different strain which appears in the nanoparticles and changes the exchange interaction constants in the doped states. The phonon energy for the Ag mode omega = 149 cm(-1) and their damping decreases or increases with increasing temperature, respectively. Both show a kink near the Neel temperature, T-N, which disappears by applying an external magnetic field. The influence of different ion doping on the band gap energy is also discussed. The doping effects can be used for different applications.

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