Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics

Undoped Ba(Zr(0.9)Ti(0.1))O(3) and rare-earth-doped (Ba(1−x)RE(2x/3))(Zr(0.9)Ti(0.1))O(3) (RE(3+) = La(3+), Sm(3+)) perovskite compounds were synthesized by the conventional solid-state reaction route. Both solubility of rare earth in Ba(Zr(0.9)Ti(0.1))O(3) and formation of perovskite structure with...

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Autores principales: Bendahhou, Amine, Chourti, Karim, Loutou, Mohamed, El Barkany, Soufian, Abou-Salama, Mohamed
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2022
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8987948/
https://www.ncbi.nlm.nih.gov/pubmed/35425059
http://dx.doi.org/10.1039/d2ra01483a
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author Bendahhou, Amine
Chourti, Karim
Loutou, Mohamed
El Barkany, Soufian
Abou-Salama, Mohamed
author_facet Bendahhou, Amine
Chourti, Karim
Loutou, Mohamed
El Barkany, Soufian
Abou-Salama, Mohamed
author_sort Bendahhou, Amine
collection PubMed
description Undoped Ba(Zr(0.9)Ti(0.1))O(3) and rare-earth-doped (Ba(1−x)RE(2x/3))(Zr(0.9)Ti(0.1))O(3) (RE(3+) = La(3+), Sm(3+)) perovskite compounds were synthesized by the conventional solid-state reaction route. Both solubility of rare earth in Ba(Zr(0.9)Ti(0.1))O(3) and formation of perovskite structure with the Pm3̄m space group were verified by the Rietveld method using X-ray diffraction data. SEM micrographs of all ceramics revealed high densification, low porosity, and even homogeneous grain distribution of various dimensions over the total surface. The frequency-dependent electrical properties were analyzed by complex impedance spectroscopy. Different types of studies such as the Nyquist plot, real and imaginary part of impedance, conductivity, modulus formalism, and charge carriers activation energy were used to explain the microstructure–electrical property relationships.
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spelling pubmed-89879482022-04-13 Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics Bendahhou, Amine Chourti, Karim Loutou, Mohamed El Barkany, Soufian Abou-Salama, Mohamed RSC Adv Chemistry Undoped Ba(Zr(0.9)Ti(0.1))O(3) and rare-earth-doped (Ba(1−x)RE(2x/3))(Zr(0.9)Ti(0.1))O(3) (RE(3+) = La(3+), Sm(3+)) perovskite compounds were synthesized by the conventional solid-state reaction route. Both solubility of rare earth in Ba(Zr(0.9)Ti(0.1))O(3) and formation of perovskite structure with the Pm3̄m space group were verified by the Rietveld method using X-ray diffraction data. SEM micrographs of all ceramics revealed high densification, low porosity, and even homogeneous grain distribution of various dimensions over the total surface. The frequency-dependent electrical properties were analyzed by complex impedance spectroscopy. Different types of studies such as the Nyquist plot, real and imaginary part of impedance, conductivity, modulus formalism, and charge carriers activation energy were used to explain the microstructure–electrical property relationships. The Royal Society of Chemistry 2022-04-07 /pmc/articles/PMC8987948/ /pubmed/35425059 http://dx.doi.org/10.1039/d2ra01483a Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Bendahhou, Amine
Chourti, Karim
Loutou, Mohamed
El Barkany, Soufian
Abou-Salama, Mohamed
Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics
title Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics
title_full Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics
title_fullStr Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics
title_full_unstemmed Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics
title_short Impact of rare earth (RE(3+) = La(3+), Sm(3+)) substitution in the A site perovskite on the structural, and electrical properties of Ba(Zr(0.9)Ti(0.1))O(3) ceramics
title_sort impact of rare earth (re(3+) = la(3+), sm(3+)) substitution in the a site perovskite on the structural, and electrical properties of ba(zr(0.9)ti(0.1))o(3) ceramics
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8987948/
https://www.ncbi.nlm.nih.gov/pubmed/35425059
http://dx.doi.org/10.1039/d2ra01483a
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