Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties

Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties

This paper aims to evaluate the synthesis and annealing parameters for production of nanometric Bi4Ti3O12 and its properties. The powders were obtained through the solution combustion route and the impacts of annealing temperature on the materials’ physicochemical features as well as their optical and electrical properties were investigated. Thus, the prepared powders were annealed at 600ºC, 700ºC and 800ºC and then characterized by several techniques. The results demonstrated that the combustion method was effective for production of nanocrystalline powders with high levels of purity. A trend for particle and crystallite growth was observed as the calcination temperature increased. X-Ray, HRTEM and Raman spectroscopy confirmed the crystalline nature of the powders, whereas impedance spectroscopy demonstrated a reduction of electrical resistance according to the calcination temperature applied. Optical properties were not highly influenced by annealing. The temperature of 600ºC was appropriate to produce crystalline particles with desirable low sizes for application.

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Main Authors: Dias,Jeferson Almeida, Oliveira,Jéssica Ariane, Renda,Carmen Greice, Morelli,Márcio Raymundo
Format: Digital revista
Language:English
Published: ABM, ABC, ABPol 2018
Online Access:http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392018000500211
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spelling oai:scielo:S1516-143920180005002112018-07-13Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric PropertiesDias,Jeferson AlmeidaOliveira,Jéssica ArianeRenda,Carmen GreiceMorelli,Márcio Raymundo nanotechnology spectroscopy annealing synthesis thermal etching This paper aims to evaluate the synthesis and annealing parameters for production of nanometric Bi4Ti3O12 and its properties. The powders were obtained through the solution combustion route and the impacts of annealing temperature on the materials’ physicochemical features as well as their optical and electrical properties were investigated. Thus, the prepared powders were annealed at 600ºC, 700ºC and 800ºC and then characterized by several techniques. The results demonstrated that the combustion method was effective for production of nanocrystalline powders with high levels of purity. A trend for particle and crystallite growth was observed as the calcination temperature increased. X-Ray, HRTEM and Raman spectroscopy confirmed the crystalline nature of the powders, whereas impedance spectroscopy demonstrated a reduction of electrical resistance according to the calcination temperature applied. Optical properties were not highly influenced by annealing. The temperature of 600ºC was appropriate to produce crystalline particles with desirable low sizes for application.info:eu-repo/semantics/openAccessABM, ABC, ABPolMaterials Research v.21 n.5 20182018-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392018000500211en10.1590/1980-5373-mr-2018-0118
institution SCIELO
collection OJS
country Brasil
countrycode BR
component Revista
access En linea
databasecode rev-scielo-br
tag revista
region America del Sur
libraryname SciELO
language English
format Digital
author Dias,Jeferson Almeida
Oliveira,Jéssica Ariane
Renda,Carmen Greice
Morelli,Márcio Raymundo
spellingShingle Dias,Jeferson Almeida
Oliveira,Jéssica Ariane
Renda,Carmen Greice
Morelli,Márcio Raymundo
Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties
author_facet Dias,Jeferson Almeida
Oliveira,Jéssica Ariane
Renda,Carmen Greice
Morelli,Márcio Raymundo
author_sort Dias,Jeferson Almeida
title Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties
title_short Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties
title_full Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties
title_fullStr Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties
title_full_unstemmed Production of Nanometric Bi4Ti3O 12 Powders: from Synthesis to Optical and Dielectric Properties
title_sort production of nanometric bi4ti3o 12 powders: from synthesis to optical and dielectric properties
description This paper aims to evaluate the synthesis and annealing parameters for production of nanometric Bi4Ti3O12 and its properties. The powders were obtained through the solution combustion route and the impacts of annealing temperature on the materials’ physicochemical features as well as their optical and electrical properties were investigated. Thus, the prepared powders were annealed at 600ºC, 700ºC and 800ºC and then characterized by several techniques. The results demonstrated that the combustion method was effective for production of nanocrystalline powders with high levels of purity. A trend for particle and crystallite growth was observed as the calcination temperature increased. X-Ray, HRTEM and Raman spectroscopy confirmed the crystalline nature of the powders, whereas impedance spectroscopy demonstrated a reduction of electrical resistance according to the calcination temperature applied. Optical properties were not highly influenced by annealing. The temperature of 600ºC was appropriate to produce crystalline particles with desirable low sizes for application.
publisher ABM, ABC, ABPol
publishDate 2018
url http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1516-14392018000500211
work_keys_str_mv AT diasjefersonalmeida productionofnanometricbi4ti3o12powdersfromsynthesistoopticalanddielectricproperties
AT oliveirajessicaariane productionofnanometricbi4ti3o12powdersfromsynthesistoopticalanddielectricproperties
AT rendacarmengreice productionofnanometricbi4ti3o12powdersfromsynthesistoopticalanddielectricproperties
AT morellimarcioraymundo productionofnanometricbi4ti3o12powdersfromsynthesistoopticalanddielectricproperties
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