Low temperature dielectric dispersion and electrical conductivity studies on Fe2O3 mixed lithium yttrium silicate glasses

Lithium yttrium silicate glasses mixed with different concentrations of Fe2O3 of the composition (40−x) Li2O–10Y2O3–50SiO2: x Fe2O3, with x=0.3, 0.5, 0.8, 1.0, 1.2 and 1.5 (all in mol%) were synthesized. Electrical and dielectric properties including dielectric constant, ε′(ω), loss, tan δ, ac condu...

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Published in:	Journal of non-crystalline solids Vol. 358; no. 23; pp. 3175 - 3186
Main Authors:	Ramesh Babu, N.Ch, Valente, M.A., Narasimha Rao, N., Graça, M.P.F., Naga Raju, G., Piasecki, M., Kityk, I.V., Veeraiah, N.
Format:	Journal Article
Language:	English
Published:	Oxford Elsevier B.V 01-12-2012 Elsevier
Subjects:	Condensed matter: electronic structure, electrical, magnetic, and optical properties Conductivity of specific materials Cross-disciplinary physics: materials science; rheology Dielectric dispersion Dielectric properties of solids and liquids Dielectrics, piezoelectrics, and ferroelectrics and their properties Disordered solids Electrical conductivity Electronic transport in condensed matter Exact sciences and technology Glasses (including metallic glasses) Lithium yttrium silicate glasses Materials science Physics Specific materials Lithium yttrium silicate glasses Dielectric dispersion Electrical conductivity Polarization Frequency dependence Glass Space charge Silicates Relaxation Quantum tunnel effect Scaling laws Absorption spectra Permittivity Activation energy Optical absorption Quantum theory Temperature dependence Experimental data Impurity density Electrical properties Dielectric properties Infrared spectra Small polaron Quantity ratio Quantum mechanics Dielectric losses Electron paramagnetic resonance
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Abstract	Lithium yttrium silicate glasses mixed with different concentrations of Fe2O3 of the composition (40−x) Li2O–10Y2O3–50SiO2: x Fe2O3, with x=0.3, 0.5, 0.8, 1.0, 1.2 and 1.5 (all in mol%) were synthesized. Electrical and dielectric properties including dielectric constant, ε′(ω), loss, tan δ, ac conductivity, σac, impedance spectra as well as electric moduli, M(ω), over a wide continuous frequency range of 40Hz to 106Hz and in the low temperature range 100 to 360K were measured as a function of the concentration of Fe2O3. The dc conductivity is also evaluated in the temperature range 100 … 360K. The temperature and frequency dispersions of dielectric constant as well as dielectric loss have been analyzed using space charge polarization model. The ac and dc conductivities have exhibited increasing trend with increasing Fe2O3 content beyond 0.5mol%, whereas the activation energy for the conductivity demonstrated decreasing tendency in this dopant concentration range. Both quantum mechanical tunneling (QMT) and correlated barrier hopping models (CBH) were used for clarification of ac conductivity origin and the corresponding analysis has indicated that CBH model is more appropriate for this glass system. For the better understanding of relaxation dynamics of the electrical properties we have drawn the scaling plots for ac conductivity and also electric moduli. The plots indicated that the relaxation dynamics is independent on temperature but depends on concentration of Fe2O3. The dc conductivity is analyzed using small polaron hoping model. The increase of conductivity with the concentration of Fe2O3 beyond 0.5mol% is explained in terms of variations in the redox ratio of iron ions in the glass network. The results were further analyzed quantitatively with the support of experimental data from IR, optical absorption and ESR spectral studies. The overall analysis has indicated that Li2O–Y2O3–SiO2 glasses containing more than 0.5mol% of Fe2O3 are more suitable for achieving good electrical conductivity in these glasses. ► Glasses of the composition (40−x) Li2O–10Y2O3–50SiO2: x Fe2O3, were synthesized. ► Electrical and dielectric properties over a wide frequency and temperature range were measured. ► The results were analyzed quantitatively with the support of data from IR, OA and ESR spectral studies. ► Overall analysis indicated that the glasses with >0.5mol% Fe2O3 posses good electrical properties.
AbstractList	Lithium yttrium silicate glasses mixed with different concentrations of Fe2O3 of the composition (40−x) Li2O–10Y2O3–50SiO2: x Fe2O3, with x=0.3, 0.5, 0.8, 1.0, 1.2 and 1.5 (all in mol%) were synthesized. Electrical and dielectric properties including dielectric constant, ε′(ω), loss, tan δ, ac conductivity, σac, impedance spectra as well as electric moduli, M(ω), over a wide continuous frequency range of 40Hz to 106Hz and in the low temperature range 100 to 360K were measured as a function of the concentration of Fe2O3. The dc conductivity is also evaluated in the temperature range 100 … 360K. The temperature and frequency dispersions of dielectric constant as well as dielectric loss have been analyzed using space charge polarization model. The ac and dc conductivities have exhibited increasing trend with increasing Fe2O3 content beyond 0.5mol%, whereas the activation energy for the conductivity demonstrated decreasing tendency in this dopant concentration range. Both quantum mechanical tunneling (QMT) and correlated barrier hopping models (CBH) were used for clarification of ac conductivity origin and the corresponding analysis has indicated that CBH model is more appropriate for this glass system. For the better understanding of relaxation dynamics of the electrical properties we have drawn the scaling plots for ac conductivity and also electric moduli. The plots indicated that the relaxation dynamics is independent on temperature but depends on concentration of Fe2O3. The dc conductivity is analyzed using small polaron hoping model. The increase of conductivity with the concentration of Fe2O3 beyond 0.5mol% is explained in terms of variations in the redox ratio of iron ions in the glass network. The results were further analyzed quantitatively with the support of experimental data from IR, optical absorption and ESR spectral studies. The overall analysis has indicated that Li2O–Y2O3–SiO2 glasses containing more than 0.5mol% of Fe2O3 are more suitable for achieving good electrical conductivity in these glasses. ► Glasses of the composition (40−x) Li2O–10Y2O3–50SiO2: x Fe2O3, were synthesized. ► Electrical and dielectric properties over a wide frequency and temperature range were measured. ► The results were analyzed quantitatively with the support of data from IR, OA and ESR spectral studies. ► Overall analysis indicated that the glasses with >0.5mol% Fe2O3 posses good electrical properties.
Author	Veeraiah, N. Ramesh Babu, N.Ch Graça, M.P.F. Valente, M.A. Piasecki, M. Kityk, I.V. Naga Raju, G. Narasimha Rao, N.
Author_xml	– sequence: 1 givenname: N.Ch surname: Ramesh Babu fullname: Ramesh Babu, N.Ch organization: Department of Physics, Acharya Nagarjuna University, Nuzvid Campus, Nuzvid, 521 201, A.P., India – sequence: 2 givenname: M.A. surname: Valente fullname: Valente, M.A. organization: Department of Physics, University of Aveiro, 3810‐193, Aveiro, Portugal – sequence: 3 givenname: N. surname: Narasimha Rao fullname: Narasimha Rao, N. organization: Department of Physics, Acharya Nagarjuna University, Nuzvid Campus, Nuzvid, 521 201, A.P., India – sequence: 4 givenname: M.P.F. surname: Graça fullname: Graça, M.P.F. organization: Department of Physics, University of Aveiro, 3810‐193, Aveiro, Portugal – sequence: 5 givenname: G. surname: Naga Raju fullname: Naga Raju, G. organization: Department of Physics, Acharya Nagarjuna University, Nuzvid Campus, Nuzvid, 521 201, A.P., India – sequence: 6 givenname: M. surname: Piasecki fullname: Piasecki, M. organization: Institute of Physics, Jan Dlugosz University, Armii Krajowej 13/15, 42‐200 Czestochowa, Poland – sequence: 7 givenname: I.V. surname: Kityk fullname: Kityk, I.V. organization: Electrical Engineering Department, Technical University of Czestochowa, Armii, Krajowej 17/19, PL-42-201 Czestochowa, Poland – sequence: 8 givenname: N. surname: Veeraiah fullname: Veeraiah, N. email: nvr8@rediffmail.com organization: Department of Physics, Acharya Nagarjuna University, Nuzvid Campus, Nuzvid, 521 201, A.P., India
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Keywords	Lithium yttrium silicate glasses Dielectric dispersion Electrical conductivity Polarization Frequency dependence Glass Space charge Silicates Relaxation Quantum tunnel effect Scaling laws Absorption spectra Permittivity Activation energy Optical absorption Quantum theory Temperature dependence Experimental data Impurity density Electrical properties Dielectric properties Infrared spectra Small polaron Quantity ratio Quantum mechanics Dielectric losses Electron paramagnetic resonance
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Snippet	Lithium yttrium silicate glasses mixed with different concentrations of Fe2O3 of the composition (40−x) Li2O–10Y2O3–50SiO2: x Fe2O3, with x=0.3, 0.5, 0.8, 1.0,...
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SubjectTerms	Condensed matter: electronic structure, electrical, magnetic, and optical properties Conductivity of specific materials Cross-disciplinary physics: materials science; rheology Dielectric dispersion Dielectric properties of solids and liquids Dielectrics, piezoelectrics, and ferroelectrics and their properties Disordered solids Electrical conductivity Electronic transport in condensed matter Exact sciences and technology Glasses (including metallic glasses) Lithium yttrium silicate glasses Materials science Physics Specific materials
Title	Low temperature dielectric dispersion and electrical conductivity studies on Fe2O3 mixed lithium yttrium silicate glasses
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