R. Sinha; S. Haldar

doi:10.24906/isc/2020/v34/i4/205473

Dielectric and Resistivity Behaviour of Y_0.95Gd_0.05CrO₃ Nanoparticles

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Authors

R. Sinha
Department of BS&HU, Asansol Engineering College, Asansol 713305. WestBengal ,IN
S. Haldar
Department of BS&HU, Asansol Engineering College, Asansol 713305. WestBengal ,IN

DOI:

https://doi.org/10.24906/isc/2020/v34/i4/205473

Keywords:

sol-gel method, nanoparticles, dielectric permittivity, resistivity.

Abstract

In this work Y_0.95Gd_0.05CrO₃ nanoparticles are prepared following sol-gel synthesis procedure. Characterization is followed by X-Ray diffraction, Transmission Electron Microscopy and Ultraviolet-Visible Spectroscopy measurements. Band gap of the sample is estimated using Ultraviolet-Visible spectroscopy data. The dependence of dielectric constant with frequency is measured for the experimental sample. From the temperature dependence of resistivity it can be said that the sample is semiconducting in nature. The value of dc activation energy has been measured also.

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Published

2020-07-01

How to Cite

Sinha, R., & Haldar, S. (2020). Dielectric and Resistivity Behaviour of Y0.95Gd0.05CrO3 Nanoparticles. Indian Science Cruiser, 34(4), 12–14. https://doi.org/10.24906/isc/2020/v34/i4/205473

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Issue

Volume 34, Issue 4, July 2020

Section

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References

W Kleemann, P Borisov, Multiferroic and Magnetoelectric Materials for Spintronics, Smart Materials for Energy, Communications and Security, Springer, Netherlands, page-3-9, 2008.

S Krishnan, C S Sandeep, R Philip, N Kalarikkal, Two-photon assisted excited state absorption in multiferroic YCrO₃ nanoparticles, Chem. Phys. Lett, Vol 529, page 59-63,2012.

J B Goodenough, W GrÃ¤per, F Holtzberg, D H. Huber, R A Lefever, J M Longo, T R McGuire, S Methfessel, in: Landolt-BÃ¶rnstein- Band 4: Magnetische And AndereEigenschaftenVon Oxide Und VerwandtenVerbindungen, Springer- Verlag, Berlin, Heidelberg, New York, 1970.

J H Kim, H S Shin, S H Kim, J H Moon, B T Lee, Formation of YCrO₃ Thin Films using RadioFrequency Magnetron Sputtering Method for a Wide Range Thermistor Application, Jpn. J. Appl.Phys. Vol 42, page 575-578, No 2A, 2003.

C Nivot, J Bernard, C Lelievre, J M Haussonne, D Houivet, Moisture sensitivity of YCr(1âˆ’x) Mn x O₃ perovskites, Ceram. Int. Vol 36, page 929-935, 2010.

R Sinha, S Kundu, S Basu, A K Meikap, Effect of La doping on optical and electrical transport properties of nanocrystalline YCrO₃, Solid State Sci. Vol 60, page 75-84, 2016.

R Sinha, S Basu, A K Meikap, Investigation of dielectric and electrical behavior of Mn doped YCrO₃ nanoparticles synthesized by the sol gel method, Physica E Vol 69, page 47-55, 2015.

B Tareev, Physics of Dielectric Materials, Mir Publishers, Moscow,1975.

K K Srivastava, A Kumar, O S Panwar, L N Lakshminarayan, Dielectric Relaxation Study of Chalcogenide gasses, J. Non-Cryst. Solids Vol 33, No 2, page 205-224,1979.

P H Bell, W P Davey, An X-Ray Study of Liquid Benzene, Cyclohexane and Their Mixtures, J.Chem. Phys. Vol 9, No 6, page 441-450, 1941.