Effect of Mn Doping on Magnetic and Dielectric Properties of Bi2Sn2O7

Lubov V. Udod; Sergey S. Aplesnin; Maxim N. Sitnikov; Evgenii V. Eremin; Maxim Sergeevich Molokeev

doi:10.4028/www.scientific.net/SSP.233-234.105

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HomeSolid State PhenomenaSolid State Phenomena Vols. 233-234Effect of Mn Doping on Magnetic and Dielectric...

Effect of Mn Doping on Magnetic and Dielectric Properties of Bi₂Sn₂O₇

Abstract:

The Bi₂(Sn_0.95Mn_0.05)₂O₇ compound existing simultaneously in two polymorphic modifications, namely, orthorhombic and cubic has been synthesized for the first time by solid-phase synthesis. The magnetic, dielectric and electrical properties of the compound have been studied. Anomalies in the temperature dependences of the electrical resistance and magnetic propoties have been found. These features are explained as martensitic phase transitions.

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Solid State Phenomena (Volumes 233-234)

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105-108

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.233-234.105

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Online since:

July 2015

Authors:

Lubov V. Udod*, Sergey S. Aplesnin, Maxim N. Sitnikov, Evgenii V. Eremin, Maxim Sergeevich Molokeev

Keywords:

Crystallographic Structure, Cubic Phase, Dielectric Permeability, Electrical Resistivity, Magnetic Moment, Martensitic Phase Transitions, Orthorhombic Phases, Polymorphic Transformation

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References

[1] Handbook of Sensors and Actuators Series, Vol. 4: Ed. By L. Yu. Kupriyanov (Elsevier, Amsterdam, 1996).

Google Scholar

[2] Chemical Sensors Technology, Ed. by T. Selyama (Kodansha, Tokyo, 1998), Vol. 1.

Google Scholar

[3] A.M. Gas'kov and M. N. Rumyantseva, Inorg. Mater. 36 (2000) 369.

Google Scholar

[4] R. D. Shannon, J. D. Beirlein, and L. J. Gillon, J. Phys. Chem. Solids 41 (1980) 117.

Google Scholar

[5] A. Walsh and Graeme W. Watson, Chem. Mater. 19 (2007) 5158.

Google Scholar

[6] R.X. Silva, C.W.A. Paschoal, R.M. Almeida, M. Carvalho Castro Jr., A.P. Ayala, Jeffrey T. Auletta, Michael W. Lufaso. Vibrational Spectroscopy 64 (2013) 172– 177.

DOI: 10.1016/j.vibspec.2012.05.009

Google Scholar

[7] F. Brisse, and O. Knop. Can. J. Chem. 46 (1968) 859–873.

Google Scholar

[8] L.V. Udod, S.S. Aplesnin, M.N. Sitnikov, M.S. Molokeev. Phys. Sol. St. 56 (2014) 1315-1319.

Google Scholar

[9] N. N. Loshkareva, D. I. Gorbunov, A. V. Andreev, N. V. Mushnikov, Y. Skourski, and F. Wolff-Fabris. J. Alloys Compd. 553 (2013) 199.

DOI: 10.1016/j.jallcom.2012.11.119

Google Scholar

[10] M. Respaud, J.M. Broto, H. Rakoto, J. Vanacken, P. Wagner, C. Martin, A. Martin, B. Raveau. Phys. Rev. B 63 (2001) 144426.

Google Scholar

[11] A. M. Kadomtseva, Yu. F. Popov, G. P. Vorob'ev, K. I. Kamilov, A. A. Mukhin, V. Yu. Ivanov, and A. M. Balbashov. Phys. Solid State 48 (2006) 2134.

DOI: 10.1134/s1063783406110163

Google Scholar

[12] N. N. Loshkareva, N. V. Mushnikov, A. V. Koralev, and A. M. Baldashov. Phys. Solid State 51 (2009) 773.

Google Scholar

[13] A. Maignan, C. Martin, F. Damay, and B. Raveau. Chem. Mater. 10 (1998) 950.

Google Scholar

[14] V. Podzorov, B.G. Kim, V. Kiryukhin, M.E. Gershenson, and S-W. Cheong. Phys. Rev. B 64 (2001) 140406.

Google Scholar

[15] V. R. Sharma, M. R. Chattopadhyay, R. Y. B. Shaeb, A. Chauhan, and S. B. Roy. Appl. Phys. Lett. 89 (2006) 222509.

Google Scholar