Product Name
Name:Fe3O4 nanorods
Product Overview
Fe₃O¡ãCnanorods are a kind of nanomaterial with a special shape, with a rod-like structure and a certain ratio of length and diameter.
Technical Parameter
Appearance:Brown yellow dispersion
Diameter:3-5nm
Length:30-50nm
Zeta potential:~35mV
Note: Zeta potential data is a single measurement data, and it is allowed to float between different batches.This product cannot be attracted to the magnet.
Product Features
Superparamagnetism: Fe3O4 nanorods are superparamagnetic and can be rapidly magnetized and demagnetized under an external magnetic field. This characteristic makes them important in fields such as magnetic resonance imaging (MRI) and magnetic hyperthermia (MHT).
Chemical stability: Ferroferric oxide nanorods are relatively stable in biological systems and are not prone to chemical changes, which helps maintain their functions and extend their service life.
Biocompatibility: Ferric oxide nanorods generally have good biocompatibility and can interact with biological tissues and cells without affecting their normal functions.
Application Fields
Magnetic Resonance Imaging (MRI):Fe3O4 nanorods can significantly reduce the relaxation time of surrounding protons due to their superparamagnetism, thereby improving the clarity and accuracy of MRI imaging. They can serve as contrast agents in T2-weighted MRI, enhancing the contrast of images and helping doctors better detect abnormal tissues or organs.
Magnetic Hyperthermia (MHT):Ferroferric oxide nanorods can generate local high temperatures and destroy tumor cells under the action of an external alternating magnetic field. This method has been introduced into clinical practice for tumor treatment. Through surface modification, the accumulation of nanorods in the tumor site can be improved, thereby enhancing the effect of magnetothermal therapy.
Medication Delivery:Ferric oxide nanorods can be used as drug carriers, enriched in tumor tissues through the EPR effect, and improve the targeted transport efficiency of drugs.
Related Information
Please e-mail for the detailed characterization data.
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