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Ferroelectrics Volume 464, 2014 - Issue 1: Proceedings of the Thirteenth International Meeting on Ferroelectricity (IMF-13)
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Section C: Characterization of Ceramics (continued)

Study of Antiferroelectric PbZrO3-Pb(M1/2W1/2)O3 (M = Mg, Zn & Mn) Complex Perovskite Solid Solutions

Z. RenDepartment of Chemistry and 4D LABS, Simon Fraser University, Burnaby, British Columbia, V5A 1S6, Canada
,
N. ZhangDepartment of Chemistry and 4D LABS, Simon Fraser University, Burnaby, British Columbia, V5A 1S6, Canada
,
S. HuoDepartment of Chemistry and 4D LABS, Simon Fraser University, Burnaby, British Columbia, V5A 1S6, Canada
,
J. Y. Y. WongDepartment of Chemistry and 4D LABS, Simon Fraser University, Burnaby, British Columbia, V5A 1S6, Canada
&
Z.-G. YeDepartment of Chemistry and 4D LABS, Simon Fraser University, Burnaby, British Columbia, V5A 1S6, CanadaCorrespondence[email protected]
Pages 27-34 | Received 02 Sep 2013, Accepted 16 Sep 2013, Published online: 01 May 2014

References

  • B. Jaffe: Antiferroelectric ceramics with Field-enforced transitions - New nonlinear circuit element. Proc IRE. 49, 1264–1267 (1961).
  • W.Y. Pan, C.Q. Dam, Q.M. Zhang, and L.E. Cross: Large displacement transducers based on electric-field forced phase-transitions in the tetragonal (Pb0.97la0.02)(Ti,Zr,Sn)O3 family of ceramics. J Appl Phys. 66, 6014–6023 (1989).
  • D. Berlincourt, H. Jaffe, H.H. A. Krueger, and B. Jaffe: Release of electric energy in PbNb(Zr, Ti, Sn)O3 by temperature and by pressure-enforced phase transitions. Appl Phys Lett. 3, 90–92 (1963).
  • A.M. Glazer, K. Roleder, and J. Dec: Structure and disorder in single-crystal lead zirconate, PbZrO3. Acta Crystallogr B. 49, 846–852 (1993).
  • E. Sawaguchi, H. Maniwa, and S. Hoshino: Antiferroelectric structure of lead zirconate. Phys Rev. 83, 1078–1078 (1951).
  • G. Shirane, E. Sawaguchi, and Y. Takagi: Dielectric properties of lead zirconate. Phys Rev. 84, 476–481 (1951).
  • H. He and X. Tan: In situ transmission electron microscopy study of the electric field-induced transformation of incommensurate modulations in a Sn-modified lead zirconate titanate ceramic. Appl Phys Lett. 85, 3187–3189 (2004).
  • X.L. Tan, C. Ma, J. Frederick, S. Beckman, and K.G. Webber: The antiferroelectric <-> ferroelectric phase transition in lead-containing and lead-free perovskite ceramics. J Am Ceram Soc. 94, 4091–4107 (2011).
  • W. Pan, Q. Zhang, A. Bhalla, and L.E. Cross: Field-forced antiferroelectric-to-ferroelectric switching in modified lead zirconate titanate stannate ceramics. J Am Ceram Soc. 72, 571–578 (1989).
  • C. Heremans and H.L. Tuller: Field-induced antiferroelectric-ferroelectric phase transitions in the Pb0.98La0.02(Zr0.70Hf0.30)(1-x)TixO3 system. J Appl Phys. 87, 1458–1466 (2000).
  • G.A. Smolenskii, A.I. Agranovskaya, and V.A. Isupov: New ferroelectrics of complex composition: Pb2MgWO6, Pb3Fe2WO9 and Pb2FeTaO6. Sov Phys-Sol State. 1, 907–908 (1959).
  • G. Baldinozzi, P. Sciau, M. Pinot, and D. Grebille: Crystal-structure of the antiferroelectric perovskite Pb2MgWO6. Acta Crystallogr B. 51, 668–673. (1995).
  • J. Blasco, R.I. Merino, J. Garcia, and M.C. Sanchez: Properties and phase transition of the ordered perovskite Pb2MnWO6. J Phys: Condens Mat. 18, 2261–2271. (2006).
  • I. Grinberg, M.R. Suchomel, P.K. Davies, and A.M. Rappe: Predicting morphotropic phase boundary locations and transition temperatures in Pb- and Bi-based perovskite solid solutions from crystal chemical data and first-principles calculations. J Appl Phys. 98, 094111-1-10 (2005).
  • T. Fujita, O. Fukunaga, T. Nakagawa, and S. Nomura: High pressure synthesis of Pb(B,B’)O3 type perovskite. Mater Res Bull. 5, 759–763 (1970).
  • W.J. Lee and N.K. Kim: Phase developments in Pb(Mg1/2W1/2)O3 and Pb(Zn1/2W1/2)O3 via B-site precursor route. J Mater Sci. 43, 3608–3611 (2008).
  • S.L. Swartz, T.R. Shrout: Fabrication of perovskite lead magnesium niobate. Mater Res Bull. 17, 1245–1250 (1982).
  • R.D. Shannon: Revised effective ionic-radii and systematic studies of interatomic distances in halides and chalcogenides. Acta Crystallogr A. 32, 751–767 (1976).
  • J.S. Speck, M. Degraef, A.P. Wilkinson, A.K. Cheetham, and D.R. Clarke: Hierarchical domain-structures and in-situ domain migration in the antiferroelectric ceramic PLSNZT. J Appl Phys. 73, 7261–7267 (1993).
  • L.L. Y. Chang: Phase relations in the system PbO-WO3. J Am Ceram Soc. 54, 357–358 (1971).
  • W.D. Kingery: Densification during sintering in the presence of a liquid phase.1. Theory. J Appl Phys. 30, 301–306 (1959).
  • W.D. Kingery and M.D. Narasimhan: Densification during sintering in the presence of a liquid phase. 2. Experimental. J Appl Phys. 30, 307–310 (1959).
  • C.H. Lu: Compositional Effect on the Liquid-phase formation in lead iron tungstate ferroelectric ceramics. J Am Ceram Soc. 77, 2529–2535. (1994).
  • R.H. Lyddane, R.G. Sachs, and E. Teller: On the polar vibrations of alkali halides. Phys Rev. 59, 673–676 (1941).

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