Effect of surface disorder on the domain structure of PLZT ceramics / Kiselev D.A., Neradovskaya E.A., Turygin A.P., Fedorovykh V.V., Shikhova V.A., Neradovskiy M.M., Sternberg A., Shur V.Y., Kholkin A.L. // Ferroelectrics. - 2017. - V. 509, l. 1. - P. 19-26.

ISSN:

00150193

Type:

Article

Abstract:

Pb1-xLax(Zr0.65Ti0.35)1-x/4O3 (PLZT x/65/35) ceramics were studied by Piezoresponse Force Microscopy in order to understand the origin of domain structure as a function of La content. We show that the domain topology is mainly determined by the composition and grain size. The characteristic correlation length decreases with increasing La content, being sensitive also to the synthesis method. The behavior of the correlation length is linked to the macroscopic properties, showing a strong increase of disorder with La doping. The roughness exponent for the domain wall in PLZT 9/65/35 is close to 2/3 indicating 1D character of domain walls in relaxors. © 2017 Taylor & Francis Group, LLC.

Author keywords:

ceramics; disorder; domain structure; piezoresponse force microscopy; PLZT; Relaxor ferroelectrics

Index keywords:

Ceramic materials; Ferroelectric materials; Lanthanum alloys; Lead; Scanning probe microscopy; ceramics; disorder; Domain structure; Piezoresponse force microscopy; Plzt; Relaxor ferroelectric; Domain

DOI:

10.1080/00150193.2017.1291385

Смотреть в Scopus:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85019154655&doi=10.1080%2f00150193.2017.1291385&partnerID=40&md5=e9f6072281902eabb6bea6ab7af7730d

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Link	https://www.scopus.com/inward/record.uri?eid=2-s2.0-85019154655&doi=10.1080%2f00150193.2017.1291385&partnerID=40&md5=e9f6072281902eabb6bea6ab7af7730d
Affiliations	National University of Science and Technology “MISiS”, Moscow, Russian Federation; School of Natural Sciences and Mathematics, Ural Federal University, Ekaterinburg, Russian Federation; Institute of Solid State Physics, University of Latvia, Riga, Latvia; Department of Physics & CICECO–Aveiro Institute of Materials, University of Aveiro, Aveiro, Portugal
Author Keywords	ceramics; disorder; domain structure; piezoresponse force microscopy; PLZT; Relaxor ferroelectrics
References	Lehnen, P., Kleemann, W., Woike, T., Pankrath, R., Ferroelectric nanodomains in the uniaxial relaxor system Sr0.61-xBa0.39Nb2O6:Cex 3+ (2001) Phys Rev B., 64, p. 224109; Abplanalp, M., Barošová, D., Bridenbaugh, P., Erhart, J., Fousek, J., Günter, P., Nosek, J., Šulc, M., Ferroelectric domain structures in PZN-8%PT single crystals studied by scanning force microscopy (2001) Sol State Comm., 119, pp. 7-12; Vakhrushev, S.B., Naberezhnov, A.A., Dkhil, B., Kiat, J.M., Shvartsman, V., Kholkin, A., Dorner, B., Ivanov, A., Structure of nanodomains in relaxors (2003) AIP Conf Proc., 674, pp. 74-83; Bai, F., Li, J.-F., Viehland, D., Domain hierarchy in annealed (001)-oriented Pb(Mg1/3Nb2/3)O3-x% PbTiO3 single crystals (2004) Appl Phys Lett., 85, p. 2313; Bdikin, I.K., Shvartsman, V.V., Kholkin, A.L., Nanoscale domains and local piezoelectric hysteresis in Pb(Zn1/3Nb2/3)O3-4.5%PbTiO3 single crystals (2003) Appl Phys Lett., 83, p. 4232; Shvartsman, V.V., Kholkin, A.L., Domain structure of 0.8Pb(Mg1/3Nb2/3)O3-0.2PbTiO3 studied by piezoresponse force microscopy (2004) Phys Rev B., 69, p. 014102; Salak, A.N., Shvartsman, V.V., Seabra, M.P., Kholkin, A.L., Ferreira, V.M., Ferroelectric-to-relaxor transition behaviour of BaTiO3 ceramics doped with La(Mg1/2Ti1/2)O3 (2004) J Phys Condens Matter., 16, p. 2785; Shvartsman, V.V., Kholkin, A.L., Evolution of nanodomains in 0.9Pb(Mg1/3Nb2/3)O3-0.1PbTiO3 single crystals (2007) J Appl Phys., 101, p. 064108; Shvartsman, V.V., Kholkin, A.L., Orlova, A., Kiselev, D., Bogomolov, A.A., Sternberg, A., Polar nanodomains and local ferroelectric phenomena in relaxor lead lanthanum zirconate titanate ceramics (2005) Appl Phys Lett., 86, p. 202907; Kiselev, D.A., Bdikin, I.K., Selezneva, E.K., Bormanis, K., Sternberg, A., Kholkin, A.L., Grain size effect and local disorder in polycrystalline relaxors via scanning probe microscopy (2007) J Phys D., 40, p. 7109; Kholkin, A.L., Kiselev, D., Morozovska, A., Bdikin, I., Rodriguez, B., Wu, P., Chen, L.-Q., Kalinin, S.V., Surface-induced domain structures and mesoscopic phase transition in relaxor ferroelectrics (2011) Adv Func Mat., 21, p. 1977; Balke, N., Bdikin, I.K., Kalinin, S.V., Kholkin, A.L., Electromechanical imaging and spectroscopy of ferroelectric and piezoelectric materials: state-of-the-art and prospects for the future (feature article) (2009) J Amer Ceram Soc., 92, p. 1629; Hardtl, K.H., Hennings, D., Distribution of A-site and B-site vacancies in (Pb,La)(Ti,Zr)O3 ceramics (1972) J Amer Ceram Soc., 55, pp. 230-231; Shur, V.Y., Lomakin, G.G., Rumyantsev, E.L., Yakutova, O.V., Pelegov, D.V., Sternberg, A., Kosec, M., Polarization reversal in heterophase nanostructures: PLZT relaxor ceramics (2005) Phys Solid State., 47, pp. 1340-1345; Shur, V.Y., Rumyantsev, E.L., Lomakin, G.G., Yakutova, O.V., Pelegov, D.V., Sternberg, A., Kosec, M., AC switching of relaxor PLZT ceramics (2005) Ferroelectrics, 314, pp. 245-253; Haertling, G., Electrooptic ceramics and devices (1988) Electronic ceramics: properties, devices, and applications., p. 403. , Levison L.M., Dekker M., (eds), New York:; Kiselev, D., (2010) Piezoresponse force microscopy of ferroelectric relaxors., , PhD dissertation, University of Aveiro, Portugal:; Dambekalne, M., Antonova, M., Livinsh, M., Garbarz-Glos, B., Smiga, W., Sternberg, A., PLZT-Synthesis, sintering and ceramics microstructure (2006) J Eur Ceram Soc., 26, pp. 2963-2966; Shur, V.Y., Lomakin, G.G., Rumyantsev, E.L., Beloglazov, S.S., Pelegov, D.V., Sternberg, A., Krumins, A., Fractal clusters in relaxor PLZT ceramics: evolution in electric field (2004) Ferroelectrics., 299, pp. 75-81; Paruch, P., Giamarchi, T., Triscone, J.M., Domain wall roughness in epitaxial ferroelectric PbZr0.2Ti0.8O3 thin films (2005) Phys Rev Lett., 94, p. 197601; Lemerle, S., Ferre, J., Chappert, C., Mathet, V., Giamarchi, T., Le Doussal, P., Domain wall creep in an Ising ultrathin magnetic film (1998) Phys Rev Lett., 80, pp. 849-852; Pertsev, N.A., Kiselev, D.A., Bdikin, I.K., Kosec, M., Kholkin, A.L., Quasi-one-dimensional domain walls in ferroelectric ceramics: Evidence from domain dynamics and wall roughness measurements (2011) J Appl Phys., 110, p. 052001
Correspondence Address	Kholkin, A.L.; School of Natural Sciences and Mathematics, Ural Federal UniversityRussian Federation; email: kholkin@ua.pt
Publisher	Taylor and Francis Inc.
CODEN	FEROA
Language of Original Document	English
Abbreviated Source Title	Ferroelectrics
Source	Scopus