Electrical and dielectric properties of co-precipitated nanocrystalline tin oxide

Nanocrystalline tin oxide (SnO 2) powders were synthesized by chemical co-precipitation method using stannic chloride pentahydrate (SnCl 4·5H 2O) precursor in aqueous medium. The influence of sintering temperatures on the crystalline structure, morphological, electrical, dielectric and XPS propertie...

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Published inJournal of alloys and compounds Vol. 505; no. 2; pp. 743 - 749
Main Authors Babar, A.R., Shinde, S.S., Moholkar, A.V., Rajpure, K.Y.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 03.09.2010
Elsevier
Subjects
Chemical co-precipitation
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Crystal structure
Crystallite size
Dielectric properties
Dielectric properties of solids and liquids
Dielectrics, piezoelectrics, and ferroelectrics and their properties
Electrical and dielectric properties
Exact sciences and technology
FTIR
Materials science
Materials synthesis; materials processing
Nanocrystalline materials
Nanocrystals
Nanoscale materials and structures: fabrication and characterization
Permittivity (dielectric function)
Physics
SEM
Sintering
Sintering (powder metallurgy)
Structure of solids and liquids; crystallography
Structure of specific crystalline solids
Tin
Tin dioxide
Tin oxide
Tin oxides
XPS studies
XRD
Tin oxide
FTIR
Electrical and dielectric properties
XPS studies
Crystallite size
SEM
Chemical co-precipitation
XRD
Fourier transform spectroscopy
Electrical conductivity
Ground states
Chemical method
Tetragonal crystals
Nanostructures
Chernical co-precipitation
Precursor
Thin films
Nanoparticles
Crystallites
Temperature effects
Chlorides
Permittivity
Coprecipitation
Nanocrystal
Crystal structure
Grain size
Scanning electron microscopy
Electrical properties
Chemical precipitation
Tetragonal lattices
Dielectric properties
Crystallinity
Excited states
Electrical measurement
Sintering
Nanostructured materials
X-ray photoelectron spectra
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Abstract Nanocrystalline tin oxide (SnO 2) powders were synthesized by chemical co-precipitation method using stannic chloride pentahydrate (SnCl 4·5H 2O) precursor in aqueous medium. The influence of sintering temperatures on the crystalline structure, morphological, electrical, dielectric and XPS properties has been studied. X-ray diffraction study reveals that sintered powder which exhibits tetragonal crystal structure and both crystallinity as well as crystal size increase with increase in temperature. The nature of species of various absorption bonds viz. Sn–O, O–Sn–O and O–H involved in sintered SnO 2 samples has been studied using FTIR technique. The morphological studies reveal randomly arranged grains with compact nature and grain size increases with sintering temperature. Measurements of electrical properties show relatively lower resistivity (≈10 2–10 3 Ω cm) and higher dielectric constant at 400 °C than other sintering temperatures. The compositional analysis and electronic behavior of SnO 2 nanoparticles is studied using X-ray photoelectron spectroscopy. The symmetric spin orbit splitting of Sn 3d 5/2 ground state and Sn 3d 3/2 excited states is observed with sintering temperature while O 1s is recognized with O 2 − state.
AbstractList Nanocrystalline tin oxide (SnO 2) powders were synthesized by chemical co-precipitation method using stannic chloride pentahydrate (SnCl 4·5H 2O) precursor in aqueous medium. The influence of sintering temperatures on the crystalline structure, morphological, electrical, dielectric and XPS properties has been studied. X-ray diffraction study reveals that sintered powder which exhibits tetragonal crystal structure and both crystallinity as well as crystal size increase with increase in temperature. The nature of species of various absorption bonds viz. Sn–O, O–Sn–O and O–H involved in sintered SnO 2 samples has been studied using FTIR technique. The morphological studies reveal randomly arranged grains with compact nature and grain size increases with sintering temperature. Measurements of electrical properties show relatively lower resistivity (≈10 2–10 3 Ω cm) and higher dielectric constant at 400 °C than other sintering temperatures. The compositional analysis and electronic behavior of SnO 2 nanoparticles is studied using X-ray photoelectron spectroscopy. The symmetric spin orbit splitting of Sn 3d 5/2 ground state and Sn 3d 3/2 excited states is observed with sintering temperature while O 1s is recognized with O 2 − state.
Nanocrystalline tin oxide (SnO sub(2)) powders were synthesized by chemical co-precipitation method using stannic chloride pentahydrate (SnCl sub(4) super(.5H) sub(2)) precursor in aqueous medium. The influence of sintering temperatures on the crystalline structure, morphological, electrical, dielectric and XPS properties has been studied. X-ray diffraction study reveals that sintered powder which exhibits tetragonal crystal structure and both crystallinity as well as crystal size increase with increase in temperature. The nature of species of various absorption bonds viz. Sn-O, O-Sn-O and O-H involved in sintered SnO sub(2) samples has been studied using FTIR technique. The morphological studies reveal randomly arranged grains with compact nature and grain size increases with sintering temperature. Measurements of electrical properties show relatively lower resistivity ([asymptotic to]10 super(2)-10 super(3) [Omega] cm) and higher dielectric constant at 400 C than other sintering temperatures. The compositional analysis and electronic behavior of SnO sub(2) nanoparticles is studied using X-ray photoelectron spectroscopy. The symmetric spin orbit splitting of Sn 3d sub(5/2) ground state and Sn 3d sub(3/2) excited states is observed with sintering temperature while O 1s is recognized with O sub(2) super(-) state.
Author Babar, A.R.
Shinde, S.S.
Moholkar, A.V.
Rajpure, K.Y.
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  surname: Moholkar
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  givenname: K.Y.
  surname: Rajpure
  fullname: Rajpure, K.Y.
  email: rajpure@yahoo.com
  organization: Electrochemical Materials Laboratory, Department of Physics, Shivaji University, Kolhapur 416004, M.S., India
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Issue 2
Keywords Tin oxide
FTIR
Electrical and dielectric properties
XPS studies
Crystallite size
SEM
Chemical co-precipitation
XRD
Fourier transform spectroscopy
Electrical conductivity
Ground states
Chemical method
Tetragonal crystals
Nanostructures
Chernical co-precipitation
Precursor
Thin films
Nanoparticles
Crystallites
Temperature effects
Chlorides
Permittivity
Coprecipitation
Nanocrystal
Crystal structure
Grain size
Scanning electron microscopy
Electrical properties
Chemical precipitation
Tetragonal lattices
Dielectric properties
Crystallinity
Excited states
Electrical measurement
Sintering
Nanostructured materials
X-ray photoelectron spectra
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Snippet Nanocrystalline tin oxide (SnO 2) powders were synthesized by chemical co-precipitation method using stannic chloride pentahydrate (SnCl 4·5H 2O) precursor in...
Nanocrystalline tin oxide (SnO sub(2)) powders were synthesized by chemical co-precipitation method using stannic chloride pentahydrate (SnCl sub(4) super(.5H)...
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SubjectTerms Chemical co-precipitation
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Condensed matter: structure, mechanical and thermal properties
Cross-disciplinary physics: materials science; rheology
Crystal structure
Crystallite size
Dielectric properties
Dielectric properties of solids and liquids
Dielectrics, piezoelectrics, and ferroelectrics and their properties
Electrical and dielectric properties
Exact sciences and technology
FTIR
Materials science
Materials synthesis; materials processing
Nanocrystalline materials
Nanocrystals
Nanoscale materials and structures: fabrication and characterization
Permittivity (dielectric function)
Physics
SEM
Sintering
Sintering (powder metallurgy)
Structure of solids and liquids; crystallography
Structure of specific crystalline solids
Tin
Tin dioxide
Tin oxide
Tin oxides
XPS studies
XRD
Title Electrical and dielectric properties of co-precipitated nanocrystalline tin oxide
URI https://dx.doi.org/10.1016/j.jallcom.2010.06.131
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