2008
DOI: 10.1016/j.eurpolymj.2007.11.001
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Synthesis of polymer-stabilized magnetic nanoparticles and fabrication of nanocomposite fibers thereof using electrospinning

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Cited by 45 publications
(34 citation statements)
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“…To date, numerous magnetic particles including magnetite, cobalt ferrite, Fe/Pt, and Fe@FeO have been successfully encapsulated into polymeric nanofibers where the principle of electrospinning remains similar. Most of these previous studies focused primarily on the production and characterization of magnetic fibers [18][19][20][21]. However, studies taking advantage of the potential of local heat-generating capability of magnetic electrospun nanofiber composites upon application of alternating magnetic field for hyperthermia treatment are limited [17,22].…”
Section: Introductionmentioning
confidence: 99%
“…To date, numerous magnetic particles including magnetite, cobalt ferrite, Fe/Pt, and Fe@FeO have been successfully encapsulated into polymeric nanofibers where the principle of electrospinning remains similar. Most of these previous studies focused primarily on the production and characterization of magnetic fibers [18][19][20][21]. However, studies taking advantage of the potential of local heat-generating capability of magnetic electrospun nanofiber composites upon application of alternating magnetic field for hyperthermia treatment are limited [17,22].…”
Section: Introductionmentioning
confidence: 99%
“…Electrospinning is a technology used for the preparation of micro-and nanofibers with a length of up to several tens of meters. Because of the various morphologies, large specific surface area and porous structure, mats find application in medicine (mats with antitumor, antibacterial or hemostatic activity), pharmacy (drug carriers), for immobilization of enzymes for water purification or for the preparation of fibrous materials with magnetic properties [1][2][3][4][5][6]. Electrospraying allows the fabrication of micro-and nanoparticles, which can serve as drug carriers for the preparation of micro-and nanofilms for electroencapsulation, in direct electrowriting, etc.…”
Section: Introductionmentioning
confidence: 99%
“…Figure 10 shows the magnetization curves of the MC-PCL-M 1,3,6 hydrogel films measured at 300 K. The magnetization curves showed that the MC-PCL-M 1,3,6 hydrogels were superparamagnetic with no hysteresis and coercivity at room temperature. This characteristic property belongs to superparamagnetic nanoparticles that the thermal fluctuations are sufficient to prevail the anisotropic energy barrier [64,65].…”
Section: Analysis Of Magnetization Propertiesmentioning
confidence: 99%