Influence of Grain Size on Dielectric Behavior in Lead-Free 0.5 BaTiO[sub.3] Ceramics

Fine-tuning of grain sizes can significantly influence the interaction between different dielectric phenomena, allowing the development of materials with tailored dielectric resistivity. By virtue of various synthesis mechanisms, a pathway to manipulate grain sizes and, consequently, tune the materi...

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Published in:Nanomaterials (Basel, Switzerland) Switzerland), 2023-11, Vol.13 (22)
Main Authors: Ene, Vladimir Lucian, Lupu, Valentin Razvan, Condor, Claudiu Vasile, Patru, Roxana Elena, Hrib, Luminita Mirela, Amarande, Luminita, Nicoara, Adrian Ionut, Pintilie, Lucian, Ianculescu, Adelina-Carmen
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Language:English
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Analysis
Ceramic materials
Ceramics
Chemical synthesis
Identification and classification
Lead compounds
Methods
Perovskite
Properties
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container_issue 22
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container_title Nanomaterials (Basel, Switzerland)
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creator Ene, Vladimir Lucian
Lupu, Valentin Razvan
Condor, Claudiu Vasile
Patru, Roxana Elena
Hrib, Luminita Mirela
Amarande, Luminita
Nicoara, Adrian Ionut
Pintilie, Lucian
Ianculescu, Adelina-Carmen
description Fine-tuning of grain sizes can significantly influence the interaction between different dielectric phenomena, allowing the development of materials with tailored dielectric resistivity. By virtue of various synthesis mechanisms, a pathway to manipulate grain sizes and, consequently, tune the material’s dielectric response is revealed. Understanding these intricate relationships between granulation and dielectric properties can pave the way for designing and optimizing materials for specific applications where tailored dielectric responses are sought. The experimental part involved the fabrication of dense BCT-BZT ceramics with different grain sizes by varying the synthesis (conventional solid-state reaction route and sol-gel) and consolidation methods. Both consolidation methods produced well-crystallized specimens, with Ba[sub.0.85] Ca[sub.0.15] O[sub.3] Ti[sub.0.9] Zr[sub.0.1] (BCTZ) perovskite as the major phase. Conventional sintering resulted in microstructured and submicron-structured BCT-BZT ceramics, with average grain sizes of 2.35 μm for the solid-state sample and 0.91 μm for the sol-gel synthesized ceramic. However, spark plasma sintering produced a nanocrystalline specimen with an average grain size of 67.5 nm. As the grain size decreases, there is a noticeable decrease in the maximum permittivity, a significant reduction in dielectric losses, and a shifting of the Curie temperature towards lower values.
doi_str_mv 10.3390/nano13222934
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subjects Analysis
Ceramic materials
Ceramics
Chemical synthesis
Identification and classification
Lead compounds
Methods
Perovskite
Properties
title Influence of Grain Size on Dielectric Behavior in Lead-Free 0.5 BaTiO[sub.3] Ceramics
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