Structural and transport properties of Bi-substituted Co2MnO4

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American Physical Society

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R. Kumar, S.K. Arora, I.V. Shvets, N.E. Rajeevan, P.P. Pradyumnan, D.K. Shukla, Structural and transport properties of Bi-substituted Co2MnO4, Journal of Applied Physics, 53rd Annual Conference on Magnetism and Magnetic Materials, NOV 11-14, 2008 Austin, TX, Austin, Texas, USA, November 11 - 14, 105, 7, American Physical Society, 2009, 07D910

Abstract

We report the structural and transport properties of the Bi-substituted Co2MnO4 multiferroic materials. Samples synthesized using the solid state reaction route with the composition BixCo2?xMnO4 (<0x<0.3) exhibit a single phase behavior with a cubic spinel structure (space group Fd3m). The lattice parameter was found to increase with the Bi substitution. The dc-conductivity studies reveal that all the samples possess a semiconducting behavior. The resistivity was found to decrease with the increase in the Bi substitution. The dc- as well as ac-conductivity data were analyzed in the light of various conduction models. The dc-conductivity data are explained using the variable range hopping model. The ac conductivity calculated from the dielectric data as a function of temperature and frequency demonstrates the cross over from small polaron tunneling to correlated barrier hopping type conduction in these materials.

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Austin, Texas, USA

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Other Titles: Journal of Applied Physics
Publisher: American Physical Society
Type of material: Conference Paper