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Description
PLL coated Fe2O3 nanoparticlesProduct Name Name: a>PLL coated Fe2O3 nanoparticles Product Overview Polylysine modified iron oxide magnetic nanoparticles consist of a poly lysine (PLL) modified iron oxide (Fe2O3) core and pure water. Technical Parameter Composition: PLL@ Fe2O3,water Diameter: 10 nm Zeta potential: +43. 4mV Product Features The polylysine modified iron oxide provided by Xianfeng Nano has a size and diameter of 10nm. Biocompatibility: It has excellent
Product Name
Name:a>PLL coated Fe2O3 nanoparticles
Product Overview
Polylysine modified iron oxide magnetic nanoparticles consist of a poly lysine (PLL) modified iron oxide (Fe2O3) core and pure water.
Technical Parameter
Composition: PLL@ Fe2O3,water
Diameter: 10 nm
Zeta potential: +43.4mV
Product Features
The polylysine modified iron oxide provided by Xianfeng Nano has a size and diameter of 10nm.
Biocompatibility: It has excellent biocompatibility and low toxicity and side effects.
Biomolecular Remodeling Ability: Easy to surface modify, can further bind different biomolecules.
Cell phagocyticity: easily engulfed by cells, with high labeling rate, suitable for cell magnetic labeling.
Dispersion and stability: It has excellent dispersion and stability.
Application Fields
Cell magnetic labeling: PLL@Fe2O3 Nanoparticles, due to their positively charged surface, are easily engulfed by cells and can be used for magnetic labeling of stem cells, tumor cells, immune cells, and so on.
MRI tracking: PLL@Fe2O3 Nanoparticles serve as contrast enhancers in magnetic resonance imaging (MRI), enhancing the contrast effect of imaging and helping to more clearly locate the location of lesions in vivo.
Drug carrier: Due to PLL@Fe2O3 The biocompatibility and ease of surface modification of nanoparticles make them suitable as drug carriers for targeted drug delivery systems.
Magnetic hyperthermia: PLL@Fe2O3 Nanoparticles can generate thermal effects under the influence of an external magnetic field, making them suitable for magnetic hyperthermia, a treatment method that uses high temperatures to kill tumor cells.
Molecular imaging: PLL@Fe2O3 Nanoparticles can be used in the field of molecular imaging, and through their magnetic properties, they can be used to monitor the dynamic changes and biological processes of biomolecules.
Magnetic labeling separation: In biological experiments, PLL@Fe2O3 Nanoparticles can be used for magnetic labeling and separation of cells or other biomolecules for research and analysis purposes.
Organizational Engineering: PLL@Fe2O3 Nanoparticles can also be applied in tissue engineering as part of scaffold materials to promote cell growth and tissue repair.
Related Information
Please e-mail for the detailed characterization data.
E-mail:[email protected]
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