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Journal of Materials Science: Materials in Electronics

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14-09-2018

Significant improvement in morphological, dielectric, ferroelectric and piezoelectric characteristics of Ba_0.9Sr_0.1Ti_0.9Zr_0.1O₃–BaNb₂O₆ nanocomposites

Authors: Aditya Jain, Amrish K. Panwar, A. K. Jha

Published in: Journal of Materials Science: Materials in Electronics | Issue 22/2018

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Abstract

Multifunctional composite with material composition (1 − x)Ba_0.9Sr_0.1Ti_0.9Zr_0.1O₃–xBaNb₂O₆ (x = 0.0, 0.05, 0.1, 0.2 and 0.3) has been successfully synthesized using mechano-chemical activation process. The co-existence of perovskite tetragonal phase of BSTZ and niobate orthorhombic phase of BNO was detected by X-ray diffraction measurement and confirmed by Rietveld analysis. All the BSTZ–BNO composites show a polygonal grain type morphology with clearly visible grain boundaries. BSTZ–BNO composites possessed a thermally stable dielectric constant within a broad range of temperature. The obtained results show a strong influence of BNO addition on the microstructural, dielectric, ferroelectric, piezoelectric and breakdown strength of bare BSTZ ceramic. For x = 0.10, the composite exhibit optimum properties with high dielectric constant ε_m = 5842, large remnant polarization P_r = 9.25 µC/cm², improved piezoelectric constant d₃₃ = 296 pC/N and high breakdown strength E_bd = 304 kV/cm. The high dielectric constant accompanied by very low dielectric loss and large piezoelectric constant make BSTZ–BNO a suitable material for ceramic capacitors and electromechanical device applications.

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R. Grigalaitis, M.V. Petrović, J. Bobić, A. Dzunuzovic, R. Sobiestianskas, A. Brilingas, B. Stojanović, J. Banys, Dielectric and magnetic properties of BaTiO₃–NiFe₂O₄ multiferroic composites. Ceram. Int. 40, 6165–6170 (2014)CrossRef

D.W. Kim, K.S. Hong, C.H. Kim, K. Char, Crystallographic orientation dependence of the dielectric constant in polymorphic BaNb₂O₆ thin films deposited by laser ablation. Appl. Phys. A 79, 677–680 (2003)CrossRef

N. Maikhuri, A.K. Panwar, A. Jha, Investigation of A-and B-site Fe substituted BaTiO₃ ceramics. J. Appl. Phys. 113, 17D915 (2013)CrossRef

J.P. Praveen, K. Kumar, A.R. James, T. Karthik, S. Asthana, D. Das, Large piezoelectric strain observed in sol–gel derived BZT–BCT ceramics. Curr. Appl. Phys. 14, 396–402 (2014)CrossRef

H. Zheng, F. Straub, Q. Zhan, P.L. Yang, W.K. Hsieh, F. Zavaliche, Y.H. Chu, U. Dahmen, R. Ramesh, Self-assembled growth of BiFeO₃–CoFe₂O₄ nanostructures. Adv. Mater. 18, 2747–2752 (2006)CrossRef

A.K. Vishwakarma, K. Jha, M. Jayasimhadri, A.S. Rao, K. Jang, B. Sivaiah, D. Haranath, Red light emitting BaNb₂O₆:Eu³⁺ phosphor for solid state lighting applications. J. Alloys Compd. 622, 97–101 (2015)CrossRef

I.-S. Cho, S.T. Bae, D.H. Kim, K.S. Hong, Effects of crystal and electronic structures of ANb₂O₆ (A=Ca, Sr, Ba) metaniobate compounds on their photocatalytic H₂ evolution from pure water. Int. J. Hydrog. Energy 35, 12954–12960 (2010)CrossRef

Y. Ebina, T. Higuchi, T. Hattori, T. Tsukamoto, Ferroelectric and structural properties of Sr_0.5Ba_0.5Nb₂O₆ thin films on La_0.05Sr_0.95TiO₃ substrate. Jpn. J. Appl. Phys. 45, 7300 (2006)CrossRef

D.W. Kim, H.B. Hong, K.S. Hong, C.K. Kim, D.J. Kim, The reversible phase transition and dielectric properties of BaNb₂O₆ polymorphs. Jpn. J. Appl. Phys., Part 41, 6045–6048 (2002)CrossRef

10.

S.P. Gaikwad, V. Samuel, R. Pasricha, V. Ravi, Preparation of nanocrystalline ferroelectric BaNb₂O₆ by citrate gel method, Bull. Mater. Sci., 28 121–123 (2005)CrossRef

11.

M. Sahoo, Z. Yajun, J. Wang, R. Choudhary, Composition control of magnetoelectric relaxor behavior in multiferroic BaZr_0.4Ti_0.6O₃/CoFe₂O₄ composites. J. Alloys Compd. 657, 12–20 (2016)CrossRef

12.

T. Takenaka, K. Maruyama, K. Sakata, (Bi_1/2Na_1/2)TiO₃–BaTiO₃ system for lead-free piezoelectric ceramics. Jpn. J. Appl. Phys. 30, 2236 (1991)CrossRef

13.

T. Badapanda, S. Sarangi, B. Behera, S. Parida, S. Saha, T. Sinha, R. Ranjan, P. Sahoo, Optical and dielectric study of strontium modified barium zirconium titanate ceramic prepared by high energy ball milling. J. Alloys Compd. 645, 586–596 (2015)CrossRef

14.

C.C. Koch, Y. Cho, Nanocrystals by high energy ball milling. Nanostruct. Mater. 1, 207–212 (1992)CrossRef

15.

L. Kong, W. Zhu, O. Tan, Preparation and characterization of Pb(Zr_0.52Ti_0.48)O₃ ceramics from high-energy ball milling powders. Mater. Lett. 42, 232–239 (2000)CrossRef

16.

Q.M. Zhang, H. Wang, N. Kim, L.E. Cross, Direct evaluation of domain-wall and intrinsic contributions to the dielectric and piezoelectric response and their temperature dependence on lead zirconate-titanate ceramics. J. Appl. Phys. 75, 454–459 (1994)CrossRef

17.

G. Arlt, N.A. Pertsev, Force constant and effective mass of 90° domain walls in ferroelectric ceramics. J. Appl. Phys. 70, 2283–2289 (1991)CrossRef

18.

D. Damjanovic, M. Demartin, H. Shulman, M. Testorf, N. Setter, Instabilities in the piezoelectric properties of ferroelectric ceramics. Sens. Actuators A: Phys. 53, 353–360 (1996)CrossRef

19.

C.A. Randall, N. Kim, J.P. Kucera, W. Cao, T.R. Shrout, Intrinsic and extrinsic size effects in fine-grained morphotropic-phase-boundary lead zirconate titanate ceramics. J. Am. Ceram. Soc. 81, 677–688 (1998)CrossRef

20.

T.M. Kamel, G. de With, Grain size effect on the poling of soft Pb(Zr,Ti)O₃ ferroelectric ceramics. J. Eur. Ceram. Soc. 28, 851–861 (2008)CrossRef

21.

A. Herabut, A. Safari, Processing and electromechanical properties of (Bi_0.5Na_0.5)_(1–1.5x) La_xTiO₃ ceramics. J. Am. Ceram. Soc. 80, 2954–2958 (1997)CrossRef

22.

S. Sarraute, O.T. Sørensen, B.F. Sørensen, E.R. Hansen, Microstructure dependent thermophysical properties of Ni–Zn ferrite–BaTiO₃ functionally graded ceramics, J. Mater. Sci. 34, 99–104 (1999)CrossRef

23.

A.K. Singh, T. Goel, R. Mendiratta, O. Thakur, C. Prakash, Dielectric properties of Mn-substituted Ni-Zn ferrites. J. Appl. Phys. 91, 6626–6629 (2002)CrossRef

24.

A. Jain, A.K. Panwar, A.K. Jha, Influence of milling duration on microstructural, electrical, ferroelectric and piezoelectric properties of Ba_0.9Sr_0.1Zr_0.04Ti_0.96O₃ ceramic. Ceram. Int. 42, 18771–18778 (2016)CrossRef

25.

N. Zhang, L. Li, J. Yu, High dielectric constant and good thermal stability from − 55 °C to 450 °C in BaTiO₃-based ceramics. Mater. Lett. 160, 128–131 (2015)CrossRef

26.

X.Y. Ye, Y.M. Li, J.J. Bian, Dielectric and energy storage properties of Mn-doped Ba_0.3Sr_0.475La_0.12Ce_0.03TiO₃ dielectric ceramics. J. Eur. Ceram. Soc. 37, 107–114 (2017)CrossRef

27.

L.H. Parker, A.F. Tasch, Ferroelectric materials for 64 Mb and 256 Mb DRAMS. IEEE Circuits Devices Mag. 6, 17–26 (1990)CrossRef

28.

L. Testardi, W. Moulton, H. Mathias, H. Ng, C. Rey, Large static dielectric constant in the high-temperature phase of polycrystalline YBa₂Cu₃O_x. Phys. Rev. B: Condens. Matter 37, 2324 (1988)CrossRef

29.

H.G. Bohn, T. Schober, Electrical conductivity of the high-temperature proton conductor BaZr_0.9Y_0.1O_2.95. J. Am. Ceram. Soc. 83, 768–772 (2000)CrossRef

30.

R. Sharma, P. Pahuja, R.P. Tandon, Structural, dielectric, ferromagnetic, ferroelectric and ac conductivity studies of the BaTiO₃–CoFe_1.8Zn_0.2O₄ multiferroic particulate composites. Ceram. Int. 40, 9027–9036 (2014)CrossRef

31.

S.K. Das, R.N. Mishra, B.K. Roul, Magnetic and ferroelectric properties of Ni doped BaTiO₃. Solid State Commun. 191, 19–24 (2014)CrossRef

32.

W. Cai, C. Fu, J. Gao, H. Chen, Effects of grain size on domain structure and ferroelectric properties of barium zirconate titanate ceramics. J. Alloys Compd. 480, 870–873 (2009)CrossRef

33.

M. Kuehn, H. Kliem, The method of local fields: a bridge between molecular modelling and dielectric theory. J. Electrostat. 67, 203–208 (2009)CrossRef

34.

Y. Wang, C.-W. Nan, Effect of Tb doping on electric and magnetic behavior of BiFeO₃ thin films. J. Appl. Phys. 103, 4103 (2008)

35.

R. Muduli, R. Pattanayak, S. Raut, P. Sahu, S. V, S. Rath, P. Kumar, S. Panigrahi, R.K. Panda, Dielectric, ferroelectric and impedance spectroscopic studies in TiO₂-doped AgNbO₃ ceramic. J. Alloys Compd. 664, 715–725 (2016)CrossRef

36.

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

37.

T. Tunkasiri, G. Rujijanagul, Dielectric strength of fine grained barium titanate ceramics. J. Mater. Sci. Lett. 15, 1767–1769 (1996)CrossRef

38.

W. Lei, R. Ang, X.-C. Wang, W.-Z. Lu, Phase evolution and near-zero shrinkage in BaAl₂Si₂O₈ low-permittivity microwave dielectric ceramics. Mater. Res. Bull. 50, 235–239 (2014)CrossRef

39.

W. Lei, Y.-Y. Yan, X.-H. Wang, W. Lu, Z.-B. Yang, W.-Z. Lu, Improving the breakdown strength of (Mg_0.9Zn_0.1)₂(Ti_1–xMn_x)O₄ ceramics with low dielectric loss. Ceram. Int. 41, 521–525 (2015)CrossRef

40.

Y. Tian, S. Li, Y. Gong, D. Meng, J. Wang, Q. Jing, Effects of Er³⁺–doping on dielectric and piezoelectric properties of 0.5Ba_0.9Ca_0.1TiO₃–0.5BaTi_0.88Zr_0.12O₃–0.12%La–xEr lead–free ceramics. J. Alloys Compd. 692, 797–804 (2017)CrossRef

41.

J.P. Praveen, T. Karthik, A. James, E. Chandrakala, S. Asthana, D. Das, Effect of poling process on piezoelectric properties of sol–gel derived BZT–BCT ceramics. J. Eur. Ceram. Soc. 35, 1785–1798 (2015)CrossRef

42.

B. Jaffe, Piezoelectric Ceramics, (Elsevier, New York, 2012)

43.

C. Duran, S. Trolier-McKinstry, G.L. Messing, Fabrication and electrical properties of textured Sr_0.53Ba_0.47Nb₂O₆ ceramics by templated grain growth. J. Am. Ceram. Soc. 83, 2203–2213 (2000)CrossRef

Title: Significant improvement in morphological, dielectric, ferroelectric and piezoelectric characteristics of Ba0.9Sr0.1Ti0.9Zr0.1O3–BaNb2O6 nanocomposites
Authors: Aditya Jain
Amrish K. Panwar
A. K. Jha
Publication date: 14-09-2018
Publisher: Springer US
Published in: Journal of Materials Science: Materials in Electronics / Issue 22/2018
Print ISSN: 0957-4522
Electronic ISSN: 1573-482X
DOI: https://doi.org/10.1007/s10854-018-0035-8

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