Grigalaitis R, Banys J, Lapinskas S, Erdem E, Böttcher R, Gläsel HJ, Hartmann E. Dielectric investigations and theoretical calculations of size effect in lead titanate nanocrystals.
IEEE TRANSACTIONS ON ULTRASONICS, FERROELECTRICS, AND FREQUENCY CONTROL 2006;
53:2270-4. [PMID:
17186906 DOI:
10.1109/tuffc.2006.172]
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Abstract
The dielectric properties of nanograin ferroelectric lead titanate crystals are presented. The PbTiO3 samples were prepared by pressing nanopowders into plates and were studied experimentally by dielectric permittivity measurements in a wide frequency and temperature range. The TC dependence obtained showed a critical change of behavior with increasing mean nanoparticle size in the 9-nm region. The theoretical calculations based on Monte Carlo simulation were performed to describe the behavior of this material. It was shown that the distribution of nanoparticle sizes in the sample taken into account with the Monte Carlo method describes the dielectric properties of PbTiO3 nanocrystals quite well.
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