M. M. Arman scite author profile

Barium titanate is still the prototype of a piezoelectric crystalline material that has attracted many researchers and industrial partners to use. A modified citrate method was used to create barium titanate nanoparticles BaTi1−xZrxO3. The samples were crystallized in a single-phase tetragonal structure, as revealed using X-ray powder diffraction. The crystallite size decreases with increasing Zr concentration. Fourier-transform infrared spectra showed the main absorption bands of the samples BaTi1−xZrxO3. Field emission scanning electron microscopy micrographs illustrate that the doped sample BaTi0.9Zr0.1O3 is more porous and finer than the parent. For low Zr doping concentrations (x = 0.1), the ferroelectric properties of barium titanate are improved. The conduction mechanisms in the samples are small polaron hopping and correlated barrier hopping. The Zr/Ti ratio is a crucial parameter for tailoring the ferroelectric–paraelectric phase transition.

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Novel multiferroic La0.95Sb0.05FeO3 orthoferrite

Ahmed

Selim

Arman

2011

Materials Chemistry and Physics

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Synchrotron radiation X-ray absorption fine structure and magnetization improvement of A-site Ce3+ doped LaFeO3

Arman

Imam

Loredo-Portales

et al. 2020

Journal of Magnetism and Magnetic Materials

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M. M. Arman

Synthesis, characterization of NdCoO3 perovskite and its uses as humidity sensor

Comparative study on the physical properties of rare-earth-substituted nano-sized CoFe2O4

Improvement of ferroelectric properties via Zr doping in barium titanate nanoparticles

Novel multiferroic La0.95Sb0.05FeO3 orthoferrite

Synchrotron radiation X-ray absorption fine structure and magnetization improvement of A-site Ce3+ doped LaFeO3

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