Product | Iron Oxide Nanopowder | |
Stock No | NS6130-03-317 | |
CAS | 1309-37-1 | Confirm |
Purity | 99.9 % | Confirm |
APS | <80nm | Confirm |
Molecular Formula | Fe2O3 | Confirm |
Molecular Weight | 159.69 g/mol | Confirm |
Form | Powder | Confirm |
Color | Red Brown | Confirm |
Density | 5.242 g/cm³ | Confirm |
Melting Point | 1539-1565 °C | Confirm |
Solubility | Insoluble in Water | |
Quality Control | Each Lot of Iron Oxide Nanopowder was tested successfully | |
Main Inspect Verifier | Manager QC |
Typical Chemical Analysis
Assay | 99.9 % |
Other Metal | 850ppm |
Iron oxide nanopowder has been enjoying great importance and wide-scale applications. Iron oxide magnetic nanoparticles with appropriate surface chemistry have been implied in numerous applications such as biomedicine and cancer therapy, catalysis and magnetic separation techniques due to their physical, chemical, thermal and magnetic properties.
Nanotechnology makes use of very small objects. Nanomaterials like iron oxide nanoparticles contain the particle size smaller than 100 nm in at least one dimension. Due to the magnetic properties of iron oxide nanoparticles, they have been explored widely in the last decades due to a large number of applications in the area of spintronics, biology and medical science. They are widely used for treating industrial sites contaminated with chlorinated organic compounds and for magnetic data storage and resonance imaging.
Iron oxide nanopowder is the oxide form of iron nanoparticles that exists in alpha, beta, and gamma. Iron oxide nanoparticles have better high magnetization, reactivity, small size and high surface to volume ratio, due to these properties of iron oxide nanoparticles are used in magnetic resonance technology, to locate the abnormalities in human body’s tissues or organs. The iron oxide nanoparticles offer the potential for clearer imaging of such tissue and organs, furthermore, these particles can be modified to allow for organ-specific imaging.
Iron oxide nanopowder is metal particles, in the range of 10-100 nm (approx). Iron nanoparticles readily form oxides. Iron oxide nanoparticles have huge applications in the field of magnetic resonance technology, drug delivery, high gradient magnetic separation, etc. Scientists are now trying to develop a mechanism that allow the drug to target the specific site of the human body. The drug can be attached to the iron nanoparticles through various methods, and then the nanoparticles targeted the affected area to release the drug.
Iron oxide nanopowder has been enjoying great importance and wide-scale applications. Iron oxide magnetic nanoparticles with appropriate surface chemistry have been implied in numerous applications such as biomedicine and cancer therapy, catalysis and magnetic separation techniques due to their physical, chemical, thermal and magnetic properties.
Iron oxide nanopowder is metal particles, in the range of 10-100 nm (approx). Iron nanoparticles readily form oxides. Iron oxide nanoparticles have huge applications in the field of magnetic resonance technology, drug delivery, high gradient magnetic separation, etc. Scientists are now trying to develop a mechanism that allow the drug to target the specific site of the human body. The drug can be attached to the iron nanoparticles through various methods, and then the nanoparticles targeted the affected area to release the drug.
Nanotechnology makes use of very small objects. Nanomaterials like iron oxide nanoparticles contain the particle size smaller than 100 nm in at least one dimension. Due to the magnetic properties of iron oxide nanoparticles, they have been explored widely in the last decades due to a large number of applications in the area of spintronics, biology and medical science. They are widely used for treating industrial sites contaminated with chlorinated organic compounds and for magnetic data storage and resonance imaging.
Iron oxide nanopowder is the oxide form of iron nanoparticles that exists in alpha, beta, and gamma. Iron oxide nanoparticles have better high magnetization, reactivity, small size and high surface to volume ratio, due to these properties of iron oxide nanoparticles are used in magnetic resonance technology, to locate the abnormalities in human body’s tissues or organs. The iron oxide nanoparticles offer the potential for clearer imaging of such tissue and organs, furthermore, these particles can be modified to allow for organ-specific imaging.
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Iron Oxide Nanopowder (Fe2O3, Alpha, Purity: 99.9%, APS: <80nm)