Relaxor-like behavior of mechanically activated ultrafine SrTiO3
Dielectric properties of nanostructured strontium titanate samples sintered from nanoparticles obtained by grinding of previously synthesized SrTiO 3 and nanoparticles obtained by chemical deposition were studied in the temperature range 10-300 K. The first sample shows the characteristic features o...
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| Published in | Ferroelectrics. Letters section Vol. 47; no. 1-3; pp. 1 - 8 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Philadelphia
Taylor & Francis
24.01.2020
Taylor & Francis Ltd |
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| Abstract | Dielectric properties of nanostructured strontium titanate samples sintered from nanoparticles obtained by grinding of previously synthesized SrTiO
3
and nanoparticles obtained by chemical deposition were studied in the temperature range 10-300 K. The first sample shows the characteristic features of a relaxor ferroelectric. The dispersion of the dielectric response observed in the vicinity of 40 K is characterized by two relaxation processes, with broad spectra of relaxation times. It is assumed that the "high-temperature" relaxation process is associated with the dynamics of the elastic domain. Possible mechanisms for the interaction of elastic deformation and polarization are discussed. |
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| AbstractList | Dielectric properties of nanostructured strontium titanate samples sintered from nanoparticles obtained by grinding of previously synthesized SrTiO3 and nanoparticles obtained by chemical deposition were studied in the temperature range 10–300 K. The first sample shows the characteristic features of a relaxor ferroelectric. The dispersion of the dielectric response observed in the vicinity of 40 K is characterized by two relaxation processes, with broad spectra of relaxation times. It is assumed that the “high-temperature” relaxation process is associated with the dynamics of the elastic domain. Possible mechanisms for the interaction of elastic deformation and polarization are discussed. Dielectric properties of nanostructured strontium titanate samples sintered from nanoparticles obtained by grinding of previously synthesized SrTiO 3 and nanoparticles obtained by chemical deposition were studied in the temperature range 10-300 K. The first sample shows the characteristic features of a relaxor ferroelectric. The dispersion of the dielectric response observed in the vicinity of 40 K is characterized by two relaxation processes, with broad spectra of relaxation times. It is assumed that the "high-temperature" relaxation process is associated with the dynamics of the elastic domain. Possible mechanisms for the interaction of elastic deformation and polarization are discussed. |
| Author | Al Jaafari, F. D. Bulgakov, O. M. Korotkov, L. N. Bocharov, A. I. |
| Author_xml | – sequence: 1 givenname: L. N. surname: Korotkov fullname: Korotkov, L. N. email: l_korotkov@mail.ru organization: Department of Solid State Physics, Voronezh State Technical University – sequence: 2 givenname: O. M. surname: Bulgakov fullname: Bulgakov, O. M. organization: Krasnodar University of the Ministry of Internal Affairs of Russia – sequence: 3 givenname: A. I. surname: Bocharov fullname: Bocharov, A. I. organization: Department of Solid State Physics, Voronezh State Technical University – sequence: 4 givenname: F. D. surname: Al Jaafari fullname: Al Jaafari, F. D. organization: Department of Solid State Physics, Voronezh State Technical University |
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| Snippet | Dielectric properties of nanostructured strontium titanate samples sintered from nanoparticles obtained by grinding of previously synthesized SrTiO
3
and... Dielectric properties of nanostructured strontium titanate samples sintered from nanoparticles obtained by grinding of previously synthesized SrTiO3 and... |
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| SubjectTerms | Activated sintering Dielectric properties Dielectric relaxation Elastic deformation Electrical properties ferroelastic domains Ferroelectricity High temperature Nanoparticles Relaxors Strontium strontium titanate Strontium titanates Submicron Ultrafines |
| Title | Relaxor-like behavior of mechanically activated ultrafine SrTiO3 |
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