Influence of palladium on gas-sensing performance of magnesium ferrite nanoparticles

Commercial ferrites with high densities are mostly used in the electromagnetic devices, which require high temperature synthesis. In this article the gas-sensing characteristics of pure and Pd-doped MgFe 2O 4 powder has been discussed. The synthesis has been carried out by using a simple molten salt...

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Published inMaterials chemistry and physics Vol. 119; no. 1; pp. 319 - 323
Main Authors Darshane, Sonali, Mulla, I.S.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.01.2010
Subjects
Doping
Ferrite
Liquids
LPG
LPG sensor
Molten salt synthesis
Nanocomposites
Nanostructure
Nanostructures
Operating temperature
Palladium
Synthesis
Molten salt synthesis
Ferrite
Nanostructures
LPG sensor
Doping
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Abstract Commercial ferrites with high densities are mostly used in the electromagnetic devices, which require high temperature synthesis. In this article the gas-sensing characteristics of pure and Pd-doped MgFe 2O 4 powder has been discussed. The synthesis has been carried out by using a simple molten salt method. This method facilitates rapid synthesis at comparatively lower temperature enabling formation of nanostructures, suitable for the gas-sensing application. Various physicochemical techniques have been used for the characterization of samples. X-ray diffraction analysis confirmed the single-phase formation of pure and Pd-doped MgFe 2O 4 having crystallite size 15–20 nm. Pure MgFe 2O 4 showed highest responses towards liquid petroleum gas (LPG) at 350 °C while, on doping with Pd the highest response shifted towards lower operating temperature of ∼200 °C. Pure MgFe 2O 4 exhibited some response towards 200 ppm of LPG which markedly increased on doping of palladium (Pd). The probable mechanism is proposed to explain the selective response towards LPG.
AbstractList The gas-sensing characteristics of pure and Pd-doped MgFe2O4 powders are discussed. The synthesis was carried out using a simple molten salt method. This method facilitated rapid synthesis at comparatively lower temperature, enabling the formation of nanostructures, suitable for gas-sensing applications. XRD analysis confirmed the single-phase formation of pure and Pd-doped MgFe2O4 with a crystallite size of 15-20 nm. Pure MgFe2O4 showed the highest response towards liquid petroleum gas (LPG) at 350 C while, after doping with Pd, the highest response shifted towards a lower operating temperature of about 200 C. Pure MgFe2O4 exhibited some response towards 200 ppm of LPG which increased markedly on doping with Pd. The probable mechanism is proposed to explain the selective response towards LPG.
Commercial ferrites with high densities are mostly used in the electromagnetic devices, which require high temperature synthesis. In this article the gas-sensing characteristics of pure and Pd-doped MgFe 2O 4 powder has been discussed. The synthesis has been carried out by using a simple molten salt method. This method facilitates rapid synthesis at comparatively lower temperature enabling formation of nanostructures, suitable for the gas-sensing application. Various physicochemical techniques have been used for the characterization of samples. X-ray diffraction analysis confirmed the single-phase formation of pure and Pd-doped MgFe 2O 4 having crystallite size 15–20 nm. Pure MgFe 2O 4 showed highest responses towards liquid petroleum gas (LPG) at 350 °C while, on doping with Pd the highest response shifted towards lower operating temperature of ∼200 °C. Pure MgFe 2O 4 exhibited some response towards 200 ppm of LPG which markedly increased on doping of palladium (Pd). The probable mechanism is proposed to explain the selective response towards LPG.
Commercial ferrites with high densities are mostly used in the electromagnetic devices, which require high temperature synthesis. In this article the gas-sensing characteristics of pure and Pd-doped MgFe(2)O(4) powder has been discussed. The synthesis has been carried out by using a simple molten salt method. This method facilitates rapid synthesis at comparatively lower temperature enabling formation of nanostructures, suitable for the gas-sensing application. Various physicochemical techniques have been used for the characterization of samples. X-ray diffraction analysis confirmed the single-phase formation of pure and Pd-doped MgFe(2)O(4) having crystallite size 15-20nm. Pure MgFe(2)O(4) showed highest responses towards liquid petroleum gas (LPG) at 350(o)C while, on doping with Pd the highest response shifted towards lower operating temperature of ~200(o)C. Pure MgFe(2)O(4) exhibited some response towards 200ppm of LPG which markedly increased on doping of palladium (Pd). The probable mechanism is proposed to explain the selective response towards LPG.
Author Darshane, Sonali
Mulla, I.S.
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Keywords Molten salt synthesis
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Nanostructures
LPG sensor
Doping
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Snippet Commercial ferrites with high densities are mostly used in the electromagnetic devices, which require high temperature synthesis. In this article the...
The gas-sensing characteristics of pure and Pd-doped MgFe2O4 powders are discussed. The synthesis was carried out using a simple molten salt method. This...
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SubjectTerms Doping
Ferrite
Liquids
LPG
LPG sensor
Molten salt synthesis
Nanocomposites
Nanostructure
Nanostructures
Operating temperature
Palladium
Synthesis
Title Influence of palladium on gas-sensing performance of magnesium ferrite nanoparticles
URI https://dx.doi.org/10.1016/j.matchemphys.2009.09.004
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