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Journal of Materials Science: Materials in Electronics

Published in:

01-05-2015

Effects of Ca doping on the energy storage properties of (Sr, Ca)TiO₃ paraelectric ceramics

Authors: Gui-Fang Zhang, Hanxing Liu, Zhonghua Yao, Minghe Cao, Hua Hao

Published in: Journal of Materials Science: Materials in Electronics | Issue 5/2015

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Abstract

The energy storage properties of Ca-doped (Sr, Ca)TiO₃ (SCT) paraelectric ceramics have been intensively investigated by traditional solid state sintering method. Phase structures and morphology were detected by the X-ray diffraction and SEM, respectively. The electric field strength dependence of polarization was measured and employed to calculate the energy storage density. The doped SCT ceramics exhibit high permittivity, low loss, and higher breakdown strength. At 333 kV/cm electric field strength, the energy storage density of the 2 mol % Ca-doped SrTiO₃ ceramics with fine grain can achieve 1.95 J/cm³, which is 2.8 times of pure SrTiO₃ in the literature, and its energy storage efficiency reaches 72.3 %. Therefore, the SCT ceramics might be a kind of promising energy storage dielectric material.

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H. Ogihara, C.A. Randall, S. Trolier-Mckinstry, High-energy density capacitors utilizing 0.7BaTiO₃–0.3BiScO₃ ceramics. J. Am. Ceram. Soc. 92(8), 1719–1724 (2009)CrossRef

D.P. Shay, N.J. Podraza, N.J. Donnelly, C.A. Randall, High energy density, high temperature capacitors utilizing Mn-doped 0.8CaTiO₃–0.2CaHfO₃ ceramics. J. Am. Ceram. Soc. 95, 1348–1355 (2012)CrossRef

D. Zhan, Q. Xu, D.-P. Huang, H.-X. Liu, W. Chen, F. Zhang, Dielectric responses of glass-added Ba_0.95Ca_0.05Zr_0.3Ti_0.7O₃ ceramics for energy storage capacitors. Phys. B Condens. Matter 440, 67–72 (2014)CrossRef

N. Ortega, A. Kumar, J.F. Scott, B.C. Douglas, M. Tomazawa, K. Shalini, D.G.B. Diestra, R.S. Katiyar, Relaxor-ferroelectric superlattices: high energy density capacitors. J. Phys.: Condens. Matter 24, 445901 (2012)

T.M. Correia, M. McMillen, M.K. Rokosz, P.M. Weaver, J.M. Gregg, G. Viola, M.G. Cain, Density ceramic for energy storage applications. J. Am. Ceram. Soc. 96(9), 2699–2702 (2013)CrossRef

Q. Zhang, Y. Zhang, X. Wang, T. Ma, Z. Yuan, Influence of sintering temperature on energy storage properties of BaTiO₃–(Sr_1−1.5xBi_x)TiO₃ ceramics. Ceram. Int. 38, 4765–4770 (2012)CrossRef

I. Burn, D.M. Smyth, Energy storage in ceramic dielectrics. J. Mater. Sci. 7, 339–343 (1972)CrossRef

G. Dong, S. Ma, J. Du, J. Cui, Dielectric properties and energy storage density in ZnO-doped Ba_0.3Sr_0.7TiO₃ ceramics. Ceram. Int. 35, 2069–2075 (2009)CrossRef

H. Yan, T. Jo, H. Okuzaki, Synthesis and electrophoretic deposition of high-dielectric-constant SrTiO₃ nanoparticles. Colloids Surf. A Physicochem. Eng. Asp. 346(1–3), 99–105 (2009)CrossRef

10.

H. Yan, T. Jo, H. Okuzaki, Low-voltage pentacene field-effect transistors fabricated on high-dielectric-constant strontium titanate insulator, Japanese. J. Appl. Phys. 49(3), 030203 (2010)CrossRef

11.

A.D. Hilton, B.W. Ricketts, Dielectric properties of Ba_1−xSr_xTiO₃ ceramics. J. Phys. D Appl. Phys. 29(5), 1321–1325 (1996)CrossRef

12.

R.P. Wang, Y. Inaguma, M. Itoh, Dielectric properties and phase transition mechanisms in Sr_1−xBa_xTiO₃ solid solution at low doping concentration. Mater. Res. Bull. 36, 1693–1701 (2001)CrossRef

13.

G. Trini, A.D. Hilton, B.W. Ricketts, Dielectric energy storage in Pb_xSr_1−xTiO₃ ceramics. J. Mater. Sci.: Mater. Electron. 12(1), 17–20 (2001)

14.

Q.-G. Hu, Z.-Y. Shen, Y.-M. Li, Z.-M. Wang, W.-Q. Luo, Z.-X. Xie, Enhanced energy storage properties of dysprosium doped strontium titanate ceramics. Ceram. Int. (Part B) 40(1), 2529–2534 (2014)CrossRef

15.

Z.-Y. Shen, Y.-M. Li, W.-Q. Luo, Z.-M. Wang, X.-Y. Gu, R.-H. Liao, Structure and dielectric properties of Nd_xSr_1−xTiO₃ ceramics for energy storage application. J. Mater. Sci.: Mater. Electron. 24, 704–710 (2013)

16.

G. Zhao, Y. Li, H. Liu, J. Xu, H. Hao, M. Cao, Z. Yu, Effect of SiO₂ additives on the microstructure and energy storage density of SrTiO₃ ceramics. J. Ceram. Process. Res. 13, 310–314 (2012)

17.

L.X. Li, X.X. Yu, H.C. Cai, Q.W. Liao, Y.M. Han, Z.D. Gao, Preparation and dielectric properties of BaCu(B₂O₅)-doped SrTiO₃-based ceramics for energy storage. Mater. Sci. Eng., B 178(20), 1509–1514 (2013)CrossRef

18.

Z. Wang, M. Cao, Z. Yao, Z. Song, G. Li, W. Hu, H. Hao, H. Liu, Dielectric relaxation behavior and energy storage properties in SrTiO3 ceramics with trace amounts of ZrO2 additives. Ceram. Int. 40, 14127–14132 (2014)CrossRef

19.

S. Chao, F. Dogan, BaTiO₃–SrTiO₃ layered dielectrics for energy storage. Mater. Lett. 65(6), 978–981 (2011)CrossRef

20.

Z.J. Wang, M.H. Cao, Z.H. Yao, G.Y. Li, Z. Song, W. Hu, H. Hao, H.X. Liu, Z.Y. Yu, Effects of Sr/Ti ratio on the microstructure and energy storage properties of nonstoichiometric SrTiO₃ ceramics. Ceram. Int. (Part A) 40(1), 929–933 (2014)CrossRef

21.

M. Ceh, D. Kolar, L. Golic, J. Solid State Chem. 68, 68–72 (1987)CrossRef

22.

Y. Nakano, N. Ichinose, J. Mater. Res. 5, 2910–2921 (1990)CrossRef

23.

Z.H. Yao, H.X. Liu, Y. Liu, Z.H. Wu, Z.Y. Shen, Y. Liu, M.H. Cao, Structure and dielectric behavior of Nd-doped BaTiO₃perovskites. Mater. Chem. Phys. 109(2–3), 475–481 (2008)CrossRef

24.

T. Mitsui, W.B. Westphal, Dielectric and X-Ray Studies of Ca_xBa_1−xTiO₃, and Ca_xSr_1−xTiO₃. Phys. Rev. 124(5), 1354–1359 (1961)CrossRef

25.

D.W. Kang, T.G. Park, J.W. Kim, J.S. Kim, H.S. Lee, H. Cho, Effect of dysprosium oxide addition on the microstructure and dielectric properties of BaTiO₃ ceramics. Electron. Mater. Lett. 6(4), 145–149 (2010)CrossRef

26.

S.H. Yoon, S.H. Kwon, K.H. Hur, Dielectric relaxation behavior of acceptor (Mg)-doped BaTiO₃. J. Appl. Phys. 109, 084117 (2011)CrossRef

27.

S.H. Yoon, C.A. Randall, K.H. Hur, Influence of grain size on impedance spectra and resistance degradation behavior in acceptor (Mg)-doped BaTiO₃ ceramics. J. Am. Ceram. Soc. 92(12), 2944–2952 (2009)CrossRef

28.

C. Ang, Z. Yu, L.E. Cross, Oxygen-vacancy-related low-frequency dielectric relaxation and electrical conduction in Bi:SrTiO₃. Phys. Rev. B 62, 228–236 (2000)CrossRef

29.

J. Chen, Y. Zhang, C. Deng, X. Dai, L. Li, Effect of the Ba/Ti ratio on the microstructures and dielectric properties of barium titanate-based glass ceramics. J. Am. Ceram. Soc. 92, 1350–1353 (2009)CrossRef

30.

A.L. Young, G.E. Hilmas, S.C. Zhang, R.W. Schwartz, Mechanical vs. electrical failure mechanisms in high voltage, high energy density multilayer ceramic capacitors. J. Mater. Sci. 42, 5613–5619 (2007)CrossRef

31.

J. Huang, Y. Zhang, T. Ma, H. Li, L. Zhang, Correlation between dielectric breakdown strength and interface polarization in barium strontium titanate glass ceramics. Appl. Phys. Lett. 96, 042902 (2010)CrossRef

32.

Y. Ye, S.C. Zhang, F. Dogan, E. Schamiloglu, J. Gaudet, P. Castro, M. Royba, M. Joler, Influence of nanocrystalline grain size on the breakdown strength of ceramic dielectrics. PPC-2003:14th IEEE International Pulsed Power Conference, vol. 1, pp. 719–722 (2003)

33.

Z. Song, H. Liu, S. Zhang, Z. Wang, Y. Shi, H. Hao, M. Cao, Z. Yao, Z. Yu, Effect of grain size on the energy storage properties of (Ba_0.4Sr_0.6)TiO₃ paraelectric ceramics. J. Eur. Ceram. Soc. 34, 1209–1217 (2014)CrossRef

Title: Effects of Ca doping on the energy storage properties of (Sr, Ca)TiO3 paraelectric ceramics
Authors: Gui-Fang Zhang
Hanxing Liu
Zhonghua Yao
Minghe Cao
Hua Hao
Publication date: 01-05-2015
Publisher: Springer US
Published in: Journal of Materials Science: Materials in Electronics / Issue 5/2015
Print ISSN: 0957-4522
Electronic ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-015-2749-1

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