Increase of magnetic and magnetoelectric properties in Co/Mn co-doped BiFeO3 multiferroic
Résumé
Co and Mn co-doped BiFeO3 samples are successfully realized using a stirred hydrothermal route to form BiFe0.9CoxMn0.1-xO3 (for x=0.01, 0.03, 0.05, 0.07 and 0.09) system. Our data show that both the ferroelectric (TC) and antiferromagnetic (TN) transition temperatures increase especially TN varies by up to 23°C when changing from BiFe0.9Co0.01Mn0.09O3 to BiFe0.9Co0.09Mn0.01O3. Such strong TN enhancement is explained by Co ionic size which induces a chemical pressure by reducing the unit cell and consequently favor the exchange coupling between the magnetic moments carried by Fe/Co/Mn. Moreover, Co 3+ (d 6 electronic configuration) by replacing Fe (d 5) increases the magnetization reaching a value of 3.394 emu/g for BiFe0.9Co0.09Mn0.01O3, by favoring double exchange interactions. The direct magnetoelectric (ME) measurements on those samples show a significant increase of the ME coefficient with a value of 8.720 mV/(Oe.cm) for BiFe0.9Co0.05Mn0.05O3 i.e. up to 6 times higher than that of pure BiFeO3. For Mn-rich compositions, because of a parasitic Bi25FeO40 phase and high electric losses, no intrinsic ME coefficient could be measured.
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