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Ultra-Small Fatty Acid-Stabilized Magnetite Nanocolloids Synthesized byIn SituHydrolytic Precipitation
- Source :
- Journal of Nanomaterials, Vol 2015 (2015)
- Publication Year :
- 2015
- Publisher :
- Hindawi Limited, 2015.
-
Abstract
- Simple, fast, large-scale, and cost-effective preparation of uniform controlled magnetic nanoparticles remains a major hurdle on the way towards magnetically targeted applications at realistic technical conditions. Herein, we present a unique one-pot approach that relies on simple basic hydrolyticin situcoprecipitation of inexpensive metal salts (Fe2+and Fe3+) compartmentalized by stabilizing fatty acids and aided by the presence of alkylamines. The synthesis was performed at relatively low temperatures (~80°C) without the use of high-boiling point solvents and elevated temperatures. This method allowed for the production of ultra-small, colloidal, and hydrophobically stabilized magnetite metal oxide nanoparticles readily dispersed in organic solvents. The results reveal that the obtained magnetite nanoparticles exhibit narrow size distributions, good monodispersities, high saturation magnetizations, and excellent colloidal stabilities. When the [fatty acid] : [Fe] ratio was varied, control over nanoparticle diameters within the range of 2–10 nm was achieved. The amount of fatty acid and alkylamine used during the reaction proved critical in governing morphology, dispersity, uniformity, and colloidal stability. Upon exchange with water-soluble polymers, the ultra-small sized particles become biologically relevant, with great promise for theranostic applications as imaging and magnetically targeted delivery vehicles.
- Subjects :
- chemistry.chemical_classification
Materials science
Article Subject
Coprecipitation
Dispersity
Fatty acid
Nanoparticle
Polymer
Colloid
chemistry.chemical_compound
chemistry
Chemical engineering
lcsh:Technology (General)
lcsh:T1-995
Magnetic nanoparticles
Organic chemistry
General Materials Science
Magnetite
Subjects
Details
- ISSN :
- 16874129 and 16874110
- Volume :
- 2015
- Database :
- OpenAIRE
- Journal :
- Journal of Nanomaterials
- Accession number :
- edsair.doi.dedup.....d0f56a1e3987ec011c8637481748df3c
- Full Text :
- https://doi.org/10.1155/2015/620672