Response of dielectric behavior and magnetoelectric effect in ferroelectric rich (x) Ni0.9Zn0.1Fe2O4+(1−x)PZT ME composites

“…It can be seen that e r increases slowly with increasing temperature up to appearance of the diffused phase transition as reported in Ref. [13]. Since charge hopping is a thermally activated process, dielectric polarization increases with increasing temperature, resulting into the increase in dielectric constant.…”

Piezoelectric, dielectric and magnetic properties of (1–x)Pb[Zr, Ti, (Mg1/2W1/2), (Ni1/3Nb2/3)]O3+x(Ni, Co, Cu)FeO4 composites

“…It can be seen that e r increases slowly with increasing temperature up to appearance of the diffused phase transition as reported in Ref. [13]. Since charge hopping is a thermally activated process, dielectric polarization increases with increasing temperature, resulting into the increase in dielectric constant.…”

Piezoelectric, dielectric and magnetic properties of (1–x)Pb[Zr, Ti, (Mg1/2W1/2), (Ni1/3Nb2/3)]O3+x(Ni, Co, Cu)FeO4 composites

“…Lead zirconate titanate (PZT) piezoelectric ceramics exhibit excellent piezoelectric and dielectric properties and are widely applied in numerous electronic devices, such as actuators, sensors, capacitors, resonators, and high-power transducers [1][2][3][4][5][6][7]. On the other hand, PZT ceramics have been extensively modified with different additives, which make them more attractive for specific applications [8][9][10][11][12][13][14].…”

Effect of ZnO whisker content on sinterability and fracture behaviour of PZT peizoelectric composites

“…The ME effect was first observed in antiferromagnetic Cr 2 O 3 compound, i.e. the single-phase materials [7,8] and later some single-phase crystal families were found to show the ME effect [9]. Alternatively, ferrite/ferroelectric composite ceramics were reported to exhibit a large ME effect than those of the single-phase materials [10,11], which results from the magnetic-mechanical-electrical interaction between the ferrite/ferroelectric phases.…”

Resistivity dependent magnetoelectric characterization of Ni0.2Co0.8Fe2O4+Ba0.8Pb0.2Zr0.8Ti0.2O3 composites