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http://dx.doi.org/10.5695/JKISE.2021.54.4.178

Dielectric Properties of BaTiO3 Substituted with Donor Dopants of Nb5+ and Ta5+  

Kim, Yeon Jung (College of Engineering, Dankook University)
Publication Information
Journal of the Korean institute of surface engineering / v.54, no.4, 2021 , pp. 178-183 More about this Journal
Abstract
The temperature and frequency dependence of the dielectric constant of the BaTiO3 substituted with two types of donor dopants, Nb5+ and Ta5+, respectively, were compared and analyzed. Dielectric specimens of four specific compositions, Ba0.95Nb0.05TiO3, Ba0.90Nb0.10TiO3, Ba0.95Ta0.05TiO3, and Ba0.90Ta0.010TiO3 were prepared by calcining at 1100 ℃ and sintering at 1300 ℃ to have a perovskite structure to measure capacitance. XRD and SEM analysis were used to observe the structure, with particular focus on the integration into the Nb5+ and Ta5+ substituted BaTiO3 crystal lattice. X-ray diffraction peaks in the (200) and (002) planes were observed between 45.10° and 45.45° of the BaTiO3 solid solution substituted with different fractions of Nb5+ and Ta5+. The dielectric properties were analyzed and the relationship between the properties and structure of the substituted BaTiO3 was established. The fine particles and high density of the substituted BaTiO3 were maintained like pure BaTiO3, and in particular, a shift toward the low temperature side of the phase transition temperature range was clearly found, unlike pure BaTiO3. In addition, the phase transition at a temperature higher than the Curie temperature relatively satisfies the modified Curie-Weiss law.
Keywords
$BaTiO_3$; Dielectric properties; Modified Curie-Weiss law;
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1 H.F.Kay, P.Vousden, Symmetry changes in barium titanate at low temperatures and their relation to its ferroelectric properties, Phil. Mag., 40 (1949) 1019-1040.   DOI
2 A.J.Moulson, J. M. Herbert, Electroceramics, second Ed, Wiley Press, New York (2003).
3 Y.J.Kim, J.W.Hyun, H.S.Kim, J.H.Lee, M.Y.Yun, S.J.Noh, Y.H.Ahn, Microstructural characterization and dielectric properties of barium titanate solid solutions with donor dopants, Bull. Korean Chem. Soc., 30(6) (2009) 1267-1273.   DOI
4 D. Phuyal, S. Mukherjee, S. Jana, F. Denoel, M. Venkata Kamalakar, S. M. Butorin, A.Kalaboukhov, H. Rensmo, O. Karis, Ferroelectric properties of BaTiO3 thin films co-doped with Mn and Nb, AIP Advances, 9 (2019) 095207, doi: 10.1063/1.5118869.   DOI
5 Y.J.Kim, Characterization and Physical Properties of Ba0.9Sb0.9TiO3 Solid Solution, Appl.Sci.Converg.Technol., 28(4) (2019) 126-129.
6 A.Jain, N.Makhuri, R.Saroha, M.Pastor, A.K.Jha, A.K.Panwar, Microstructural and dielectric investigations of vanadium substituted barium titanate ceramics, Adv.Mater.Lett., 7(7) (2016) 567-572.   DOI
7 M.S.Alkathy, AGayam, K.C.James Raju, Effects of nickel and lithium co-substituted barium titanate ceramics on structural and dielectric properties, J.Mater Sci:Mater Electron., 28 (2017) 1684-1694.   DOI
8 M.A.Mohiddon, K.L.Yadav, Effect of 90° domain on ferroelectric properties of alkali modified SBN, J.Phys.D: Appl.Phys., 41 (2008) 225406-225413.   DOI
9 V.Paunovic, V.Mitic, M.Djordjevic, Z.Prijic, Niobium doping effect on BaTiO3 structure and dielectric properties, Ceramics International, 46(6) (2020) 8154-8164.   DOI
10 V.Paunovic, V.Mitic, M.Marjanovic, L.Kocic, Dielectric properties of La/Mn co-doped barium titanate ceramics, Electronics and Energetics, 29(2) (2016) 285-296.