Observations on the structural, piezoelectric, and impedance properties of cation-(La and Sn) modified lead zirconium titanate (PLZST) ceramics

Observations on the structural, piezoelectric, and impedance properties of cation-(La and Sn) modified lead zirconium titanate (PLZST) ceramics

The structural ambiguity was resolved quantitatively with dual-phase models of Cc + P4mm. Multiple-phase transition behaviors including Antiferroelectric (AFE) to Ferroelectric transition, transition at depolarization temperature, and AFE to paraelectric state transition were observed among PLZST sa...

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Bibliographic Details
Published in:Journal of materials science. Materials in electronics Vol. 35; no. 6; p. 454
Main Authors: Tirumalasetti, Kalpana, Ashok, J., Gudiguntla, Ravi, Babu, N. Ch. Ramesh, Geetha, P., Prabhakar, Virupakshi, Nagaraju, G., Babu, A. Chitti, Sreedhar, Pandiri
Format: Journal Article
Language:English
Published: New York Springer US 01-02-2024
Springer Nature B.V
Subjects:
Antiferroelectricity
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composition
Depolarization
Figure of merit
High temperature
Impedance
Materials Science
Optical and Electronic Materials
Phase transitions
Piezoelectricity
Tin
Zirconium titanates
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Summary:The structural ambiguity was resolved quantitatively with dual-phase models of Cc + P4mm. Multiple-phase transition behaviors including Antiferroelectric (AFE) to Ferroelectric transition, transition at depolarization temperature, and AFE to paraelectric state transition were observed among PLZST samples and investigated in detail. The piezoelectric and impedance features of a modified PZT ceramic that has different mole ratios of La and Sn co-substitution are shown here. The principle of Archimedes shows that the synthesized specimens have sufficient density for withstanding high temperatures and higher fields while explaining them. We concentrated on the impedance and piezoelectric coefficients d 33 , g 33 , and figure of merit (FOM) of the ideal PbLaZrSnTiO 3 (PLZST) composition (50/30/20) in this study. The PLZSTs consist of two phases ( Cc  +  P4mm ), which combine to generate a single phase with a high Sn content and a low La content. These structural correlations coexist with the dual evaluation of impedance and piezoelectric characteristics in order to produce optimum composition. In order to evaluate the impedance features, the property of activation energy for the grains also supports the PLZST (50/30/20) having superior properties among PLZSTs. The optimum composition will meet the current business's commercial needs through multiple windows.
ISSN:0957-4522
1573-482X
DOI:10.1007/s10854-024-12244-w