STRUCTURE AND CATION DISTRIBUTION OF Cd-Zr CO-SUBSTITUTED NICKEL SPINEL FERRITE
Keywords:
Cation Distribution, XRD Pattern, Lattice Parameter, Ceramic Method, X-Ray densityAbstract
Cd-Zr co-substituted nickel spinel ferrite was prepared using standard ceramic method of preparation.The prepared samples were characterized by XRD for its structural analysis. The lattice parameter, particle size and X-ray density were obtained from the XRD data. Further, using XRD data the cation distribution was obtained revealing that the Zr4+ ions occupy both tetrahedral and octahedral sites.
References
1. R. Peelamedu, C. Grimes. D. Agrawal, R.Roy, J. Mater.Res. 18 (2003) 2292.
2. A.K.M. Akther Hossain, M.Seki, T. Kawai, H. Tabata, J.Appl. Phys. 96 (2004) 1273
3. A Goldman, Handbook of Modern Ferromagnetic Materials, Kulwer Academic Publishers, Boston, USA, 1999
4. R. Valenzuela, magnetic Ceramices, Cambridge University Press, Cambridge. 1994
5. V.R.K. Murthy, Phys. Status Solidi A 38 ( 1976) 647.
6. R. Hochschild, H. Fuess, J. Mater Chem. 10 (2000) 539.
7. J. Smit, H.P.J. Wijn, Ferrites. Philips Technical Library, Eindhoven. The Netherlands. 1959.pp151.157-158.
8. [8] J. Smit, H.P.J. Wijn, Ferrites -Physical Properties of Ferrimagnatic Oxides in Relation to their Technical Applications. N.V. Philip s. The Netherlands. 1959. pp.136-176.
9. C.N. Chinnasamy, A. Narayanasamy. N. Ponpandian,Phys. Rey. B 63 (2001) 184108.
10. M. Atif, S.K. Hasanain, M. Nadeem, Solid State Commun, 138 (2006) 416.
11. H. Furuhanshi, M. Inogaki and S. NakaJa. InorgNucl, Chem. 35 (1973) 3009.
12. V. UrviChhaya, Bimal S. Trivedi and R.G. Kulkarni Hyperfine Interactions (1998)
13. Rezlescu, N. a nd E. Rezlescu, 1995 Phys. Stat. Sol. (a). 147 : 553-562.
14. Rezlescu, N. And E. Rezlescu, 1996. J. Am. Ceram. Soc. 79 : 2105-2108.
15. A.K.M. Zakaria, M.A. Asgar F.U. Ahmed, S.M. Yunus, S.G. Eriksson J. Magn Mag. Mat. 365 (2003) 311-320.
16. Das, A.R., V.S. Ananthan and D.C. Khan, 1985. J. Appl. Phys. 57 : 4189-4191.
2. A.K.M. Akther Hossain, M.Seki, T. Kawai, H. Tabata, J.Appl. Phys. 96 (2004) 1273
3. A Goldman, Handbook of Modern Ferromagnetic Materials, Kulwer Academic Publishers, Boston, USA, 1999
4. R. Valenzuela, magnetic Ceramices, Cambridge University Press, Cambridge. 1994
5. V.R.K. Murthy, Phys. Status Solidi A 38 ( 1976) 647.
6. R. Hochschild, H. Fuess, J. Mater Chem. 10 (2000) 539.
7. J. Smit, H.P.J. Wijn, Ferrites. Philips Technical Library, Eindhoven. The Netherlands. 1959.pp151.157-158.
8. [8] J. Smit, H.P.J. Wijn, Ferrites -Physical Properties of Ferrimagnatic Oxides in Relation to their Technical Applications. N.V. Philip s. The Netherlands. 1959. pp.136-176.
9. C.N. Chinnasamy, A. Narayanasamy. N. Ponpandian,Phys. Rey. B 63 (2001) 184108.
10. M. Atif, S.K. Hasanain, M. Nadeem, Solid State Commun, 138 (2006) 416.
11. H. Furuhanshi, M. Inogaki and S. NakaJa. InorgNucl, Chem. 35 (1973) 3009.
12. V. UrviChhaya, Bimal S. Trivedi and R.G. Kulkarni Hyperfine Interactions (1998)
13. Rezlescu, N. a nd E. Rezlescu, 1995 Phys. Stat. Sol. (a). 147 : 553-562.
14. Rezlescu, N. And E. Rezlescu, 1996. J. Am. Ceram. Soc. 79 : 2105-2108.
15. A.K.M. Zakaria, M.A. Asgar F.U. Ahmed, S.M. Yunus, S.G. Eriksson J. Magn Mag. Mat. 365 (2003) 311-320.
16. Das, A.R., V.S. Ananthan and D.C. Khan, 1985. J. Appl. Phys. 57 : 4189-4191.
Published
31-05-2020
How to Cite
PATIL, B. (2020). STRUCTURE AND CATION DISTRIBUTION OF Cd-Zr CO-SUBSTITUTED NICKEL SPINEL FERRITE. Innovare Journal of Sciences, 8(7), 57–58. Retrieved from https://mail.innovareacademics.in/journals/index.php/ijs/article/view/38531
Issue
Section
Articles