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Structural and Magnetic Properties on Sr-substituted BiFeO3 Perovskite Nanoferrites

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DOI: 10.23977/tracmp.2022.010101 | Downloads: 18 | Views: 1898

Author(s)

Kaimin Su 1, Kangling Huang 1, Hu Yang 1, Yun He 2

Affiliation(s)

1 College of Physics and Technology, Guangxi Normal University, Guilin 541004, China
2 Guangxi Key Laboratory of Nuclear Physics and Nuclear Technology, Guangxi Normal University, Guilin 541004, China

Corresponding Author

Hu Yang

ABSTRACT

This experiment using the method of polyacrylamide sol-gel synthetic Bi1-xSrxFeO3 (x=0.02~0.12) powder. The diffraction peak trend together with the increase of Sr2+ and the different calcining temperature show that the best calcining temperature is 600℃.The scanning electron microscope images that the reunion phenomenon more serious with the increase of doping and the particle morphology become more and more random.It can get smaller particle size with the increasing of Sr2+.Experimental results show that the minimum particle can be get when the calcining temperature is 600℃. With the increasing of Sr2+ ions, the area of hysteresis loop change distinct.When x=0.04, calcining temperature T=600℃ can get a preferable particle.

KEYWORDS

Bi0.7(Gd0.3-xSrx)FeO3, Sol–gel, Calcination temperature, M-H curves

CITE THIS PAPER

Kaimin Su, Kangling Huang, Hu Yang, Yun He, Structural and Magnetic Properties on Sr-substituted BiFeO3 Perovskite Nanoferrites. Transactions on Condensed Matter Physics (2022) Vol. 1: 1-6. DOI: http://dx.doi.org/10.23977/tracmp.2022.010101.

REFERENCES

[1] H. Schmid. Multi-Ferroic Magnetoelectrics. Ferroelectrics. 1994, 162: 665-685.
[2] J. D. Teague, R. Gerson, W. J. James. Dielectric Hysteresis in Single Crystal BiFeO3. Solid State Communications. 1970, 8(13): 1073-1074.
[3] F.M. Bai, J.L. Wang, M. Wuttig, J.F. Li, N.G. Wang, A.P. Pyatakov, A.K. Zvezdin, L.E. Cross, D. Viehland. Destruction of Spin Cycloid in (111)c -Oriented BiFeO3 Thin Films by Epitiaxial Constraint: Enhanced Polarization and Release of Latent Magnetization. Applied Physics Letters, 2005, 86(3): 32511. 
[4] F. Kubel, H. Schmid. Structure of a Ferroelectric and Ferroelastic Mono-domain Crystal of the Perovskite BiFeO3. Acta Crystallographica Section B: Structural Science. 1990, 46(6): 698-702. 
[5] J. M. Moreau, C. Michel, R. Gerson, W. J. James. Ferroelectric BiFeO3 X-ray and Neutron Diffraction Study. Journal of Physics and Chemistry of Solids. 1971, 32(6): 1315-1320.
[6] C. Michel, J.M. Moreau, G. D. Achenbache, R. Gerson, W. J. James. The Atomic Structure of BiFeO3. Solid State Communications. 1969, 7(9): 701-704.
[7] C. Ederer, N. A. Spaldin. Weak Ferromagnetism and Magnetoelectric Coupling in Bismuth Ferrite. Physical Review B. 2005, 71: 60401.
[8] Jun Y K., Moon W.T, Chang C.M, et al. Effects of Nb-doping on electrie and magnetie properties in multifermie BiFeO3ceramies.solid state communications, 2005, 135(1): 133-137.
[9] J. D. Teague, R. Gerson, W. J. James. Dielectric Hysteresis in Single Crystal BiFeO3. Solid State Communications. 1970, 8(13): 1073-1074.
[10] R. Haumont, J. Kreisel, P. Bouvier. Raman Scattering of the Model Multiferroic Oxide BiFeO3: Effect of Temperature, Pressure and Stress. Phase Transitions. 2006, 79(12): 1043-1064.
[11] Jun Y K., Moon W.T, Chang C.M, et al. Effects of Nb-doping on electrie and magnetie properties in multifermie BiFeO3ceramies.solid state communications, 2005, 135(1):133-137.
[12] Zhao Q X, Zhang T, Ma J K et al. Effect of Deposition Temperature on the Structural and Physical Properties of BiFeO3 Films Prepared by Magnetron Sputtering. Journal of Synthetic Crystal, 2011, 40(4) : 921-925.
[13] V. A. Khomchenko, A. Kiselev, J. M. Vieira, and A. L. Kholkin. Synthesis and multiferroic properties of Bi0.8A0.2FeO3 (A=Ca,Sr,Pb) ceramics. Applied physics letters 2007,90, 242901. 
[14] B Bhushan, A Basumallick, S K Bandopadhyay, N Y Vasanthacharya and D Das .Effect of alkaline earth metal doping on thermal, optical, magnetic and Dielectri properties of BiFeO3 nanoparticles. J. Phys. D: Appl. Phys. 2009, 42, 65004.
[15] K.F. Wang, J.M. Liu, Z.F. Ren. Multiferroicity: the coupling between magnetic and polarization orders. Advances in Physics, 2009, 58 (4): 321-448.
[16] Wei Jie, Chen Yan-Jun, Xu Zhuo. Study on the size-dependent magnetic properties of multiferroic BiFeO3 nanoparticles. Acta Phys. Sin, 2012, 61(5) 057502.

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