Iron oxide-silica nanocomposites yielded by chemical route and sol–gel method

Magnetic nanoparticles yielded by chemical route were surface modified with stabilizing agents being further coated by sol–gel method with silica shell to be used for various applications. Iron oxide magnetic cores were dispersed in water by single citrate layer and, respectively, by double oleate h...

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Published inJournal of sol-gel science and technology Vol. 79; no. 3; pp. 457 - 465
Main Authors Puscasu, E., Sacarescu, L., Lupu, N., Grigoras, M., Oanca, G., Balasoiu, M., Creanga, D.
Format Journal Article
LanguageEnglish
Published New York Springer US 01.09.2016
Springer Nature B.V
Subjects
Biomolecules
Ceramics
Chemistry and Materials Science
Coating
colloids
Composites
Crystallites
etc.
fibers
Glass
Heat treatment
Inorganic Chemistry
Iron oxides
Magnetic cores
Magnetic properties
Magnetic saturation
Materials Science
Nanocomposites
Nanoparticles
Nanostructure
Nanotechnology
Natural Materials
Optical and Electronic Materials
Organic chemistry
Original Paper: Nano-structured materials (particles
Silica gel
Silicon dioxide
Sol gel process
Sol-gel processes
Stabilizers (agents)
Citrate
Superparamagnetic nanocomposites
Iron oxides
Oleate double layer
Sol–gel coating
Online AccessGet full text
ISSN0928-0707
1573-4846
DOI10.1007/s10971-016-3996-1

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Abstract Magnetic nanoparticles yielded by chemical route were surface modified with stabilizing agents being further coated by sol–gel method with silica shell to be used for various applications. Iron oxide magnetic cores were dispersed in water by single citrate layer and, respectively, by double oleate hydrophilic coating. Sol–gel reaction with tetraethylorthosilicate provided further coating with silica that confers increased reactivity for ligand coupling. Microstructural and magnetic properties were investigated by standard methods evidencing nanometric size, good crystallinity, and superparamagnetic behavior. Comparative analysis evidenced similar crystallite size for both citrate- and oleate-coated magnetic nanoparticles, while granularity was changed after silica adding. Saturation magnetization diminished less for oleate-stabilized nanoparticles than for citrate-stabilized ones after silica coating and moderate thermal treatment. Such prepared magnetic nanocomposites could have possible utilization as magnetic vectors for targeted biomolecules. Graphical Abstract
AbstractList Magnetic nanoparticles yielded by chemical route were surface modified with stabilizing agents being further coated by sol–gel method with silica shell to be used for various applications. Iron oxide magnetic cores were dispersed in water by single citrate layer and, respectively, by double oleate hydrophilic coating. Sol–gel reaction with tetraethylorthosilicate provided further coating with silica that confers increased reactivity for ligand coupling. Microstructural and magnetic properties were investigated by standard methods evidencing nanometric size, good crystallinity, and superparamagnetic behavior. Comparative analysis evidenced similar crystallite size for both citrate- and oleate-coated magnetic nanoparticles, while granularity was changed after silica adding. Saturation magnetization diminished less for oleate-stabilized nanoparticles than for citrate-stabilized ones after silica coating and moderate thermal treatment. Such prepared magnetic nanocomposites could have possible utilization as magnetic vectors for targeted biomolecules.Graphical Abstract
Magnetic nanoparticles yielded by chemical route were surface modified with stabilizing agents being further coated by sol–gel method with silica shell to be used for various applications. Iron oxide magnetic cores were dispersed in water by single citrate layer and, respectively, by double oleate hydrophilic coating. Sol–gel reaction with tetraethylorthosilicate provided further coating with silica that confers increased reactivity for ligand coupling. Microstructural and magnetic properties were investigated by standard methods evidencing nanometric size, good crystallinity, and superparamagnetic behavior. Comparative analysis evidenced similar crystallite size for both citrate- and oleate-coated magnetic nanoparticles, while granularity was changed after silica adding. Saturation magnetization diminished less for oleate-stabilized nanoparticles than for citrate-stabilized ones after silica coating and moderate thermal treatment. Such prepared magnetic nanocomposites could have possible utilization as magnetic vectors for targeted biomolecules. Graphical Abstract
Author Puscasu, E.
Lupu, N.
Creanga, D.
Balasoiu, M.
Sacarescu, L.
Oanca, G.
Grigoras, M.
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Keywords Citrate
Superparamagnetic nanocomposites
Iron oxides
Oleate double layer
Sol–gel coating
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Snippet Magnetic nanoparticles yielded by chemical route were surface modified with stabilizing agents being further coated by sol–gel method with silica shell to be...
Magnetic nanoparticles yielded by chemical route were surface modified with stabilizing agents being further coated by sol-gel method with silica shell to be...
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SubjectTerms Biomolecules
Ceramics
Chemistry and Materials Science
Coating
colloids
Composites
Crystallites
etc.
fibers
Glass
Heat treatment
Inorganic Chemistry
Iron oxides
Magnetic cores
Magnetic properties
Magnetic saturation
Materials Science
Nanocomposites
Nanoparticles
Nanostructure
Nanotechnology
Natural Materials
Optical and Electronic Materials
Organic chemistry
Original Paper: Nano-structured materials (particles
Silica gel
Silicon dioxide
Sol gel process
Sol-gel processes
Stabilizers (agents)
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Title Iron oxide-silica nanocomposites yielded by chemical route and sol–gel method
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