Preparation and characterization of La0.7AE0.3MnO3 (AE=Ca, Sr, Ba): Perovskite structured manganites

“…This variation is also obtained in different preparation method with similar divalent substitution in previous reports [9,10] . Magnetic properties (Fig.…”

“…3) investigation via VSM measurement shown that LBMO and LSMO systems show a transition from ferromagnetic to paramagnetic (Curie temperature, T C ) at 343.0 and 363.5 K, respectively. This result is slightly higher than the reported value [9] . From previous study, T c for LCMO is 240 K, which is lower than the measurement range (300 K) [10] .…”

“…Recently, the effect of grain boundaries in the polycrystalline manganites has been studied intensively, where the grain's shape or microstructure will be changed with different preparation process [6,7] or dopant [7][8][9] . It is found that substitution of divalent atoms with variance atomic radius and preparation process will influence the magnetic properties and electrical properties of the system [6,7] .…”

Effect of Divalent Ions (A = Ca, Ba and Sr) Substitution in La-A-Mn-O Manganite on Structural, Magnetic and Electrical Transport Properties

“…This variation is also obtained in different preparation method with similar divalent substitution in previous reports [9,10] . Magnetic properties (Fig.…”

“…3) investigation via VSM measurement shown that LBMO and LSMO systems show a transition from ferromagnetic to paramagnetic (Curie temperature, T C ) at 343.0 and 363.5 K, respectively. This result is slightly higher than the reported value [9] . From previous study, T c for LCMO is 240 K, which is lower than the measurement range (300 K) [10] .…”

“…Recently, the effect of grain boundaries in the polycrystalline manganites has been studied intensively, where the grain's shape or microstructure will be changed with different preparation process [6,7] or dopant [7][8][9] . It is found that substitution of divalent atoms with variance atomic radius and preparation process will influence the magnetic properties and electrical properties of the system [6,7] .…”

Effect of Divalent Ions (A = Ca, Ba and Sr) Substitution in La-A-Mn-O Manganite on Structural, Magnetic and Electrical Transport Properties

“…The SEM shows that the microstructure is dense globally but a few scattered micropores are observed, which indicates that there is some porosity in the sample. The micropores mainly result from the poor sintering property of LBMO [20]. Research on porous PZT ceramics indicates that the porosity may decrease the piezoelectric coefficient (d 33 ), dielectric constant (ε r ) and remnant polarization (P r ) of the sample, while it may increase the dielectric loss [24][25][26].…”

“…The theoretical saturation polarization (P s ) is 20.35 mC/cm 2 , and the piezoelectric constant d 33 is 460 pC/N. La 0.7 Ba 0.3 MnO 3 (LBMO), as mentioned above, is a ferromagnetic material; the saturation magnetization (Ms) is $ 80 emu/g (T¼ 5 K), and the curie temperature (Tc) is $ 290 K [19,20]. Moreover, LBMO has an outstanding magnetostriction property at room temperature, achieving 254 Â 10 À 6 in a magnetic field of 8.2 kOe [21].…”

Magneto-electric coupling study in multiferroic La0.7Ba0.3MnO3–BaTiO3 composite ceramic at room temperature

Improved electrical properties of La2/3Ba1/3MnO3:Ag0.04 thin films by thermal annealing