NN0281 Nano Iron(II,III) Oxide (Fe3O4) (CAS No. 1317-61-9)

Catalog No.	NN0281
CAS Number	1317-61-9
Chemical Formula	Fe3O4
APS	80 nm
Form	Black Powder
Purity	99.9%
MSDS/SDS	Download MSDS/SDS

Our high-quality nano iron (II,III) oxide has cutting-edge applications in catalysis, paints, transparent functional coatings, and nano-porous layers for sensors and membranes.

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Nano Iron(II,III) Oxide (Fe3O4) (CAS No. 1317-61-9)

Description

Specification

Technical Data Sheet

Nano Iron(II,III) Oxide Description

Nano Iron(II,III) Oxide Powder is a dark black or brown powder that consists of iron (Fe) and oxygen (O) atoms. It is also known as iron(II, III) oxide or ferrous ferric oxide. Fe3O4 powder is magnetic and exhibits strong ferromagnetic properties, which makes it commonly used in various applications such as magnetic storage devices, magnetic fluids, and the manufacturing of magnetic materials.

Nano Iron(II,III) Oxide Specification

APS	80 nm
Purity	99.9%
Specific Surface Area (m2/g)	50
Bulk Density (g/cm3)	1.24
Tap Density (g/cm3)	3.39
Color	black
Chemical Formula	Fe3O4
CAS Number	1317-61-9

Nano Iron(II,III) Oxide Applications

1. Magnetic Nanoparticles: Fe3O4 powder is often used to produce magnetic nanoparticles for applications in medicine, electronics, and materials science. These nanoparticles can be functionalized and used in drug delivery systems, magnetic resonance imaging (MRI) contrast agents, and environmental remediation.

2. Catalysis: Fe3O4 powder can serve as a catalyst support material due to its magnetic properties. It can be used to immobilize catalysts, making the separation and recovery of catalysts easier after chemical reactions.

3. Magnetic Recording Media: Fe3O4 powder has been historically used in magnetic recording media, such as hard drives and cassette tapes. Its magnetic properties allow for the storage of data through magnetization.

4. Biosensing: Fe3O4 nanoparticles are used in biosensors for detecting biomolecules due to their high surface area and ease of functionalization. These biosensors find applications in medical diagnostics, food safety testing, and environmental monitoring.

5. Wastewater Treatment: Fe3O4 powder can be used in water treatment processes for removing heavy metals and other pollutants from wastewater. The magnetic properties of Fe3O4 facilitate the separation of the adsorbent material from treated water.

6. Electromagnetic Wave Absorption: Fe3O4 powder can be incorporated into composites to enhance their electromagnetic wave absorption capabilities. This is useful in applications such as stealth technology, where materials are designed to absorb or scatter radar waves.

7. Biomedical Applications: Fe3O4 nanoparticles are being explored for various biomedical applications, including targeted drug delivery, hyperthermia treatment (where the nanoparticles generate heat in response to an external magnetic field to destroy cancer cells), and magnetic separation of biomolecules.

8. Environmental Remediation: Fe3O4 nanoparticles can be used to remove contaminants from soil and water through processes like adsorption, making them valuable in environmental cleanup efforts.

9. Magnetic Fluids: Fe3O4 powder can be used to create magnetic fluids or ferrofluids, which are stable colloidal suspensions of magnetic nanoparticles in a liquid carrier. These fluids have applications in damping systems, sealing, and medical applications.

10. Magnetically Responsive Materials: Fe3O4 powder can be embedded into polymers or other materials to create magnetically responsive materials that can be manipulated using external magnetic fields. These materials have applications in robotics, sensors, and actuation systems.

11. Electronics and Sensors: Fe3O4 powder can be integrated into electronic components and sensors for various applications, such as magnetic field sensors, data storage, and magnetic ink in printing.

12. Magnetic Hyperthermia: Fe3O4 nanoparticles are used in the field of cancer therapy, where they are introduced into tumors and heated using alternating magnetic fields. This technique, known as magnetic hyperthermia, can help destroy cancer cells while minimizing damage to healthy tissue.

Nano Iron(II,III) Oxide Safety Information

Signal Word	Warning
Hazard Statements	H315-H319-H335
Precautionary Statements	P261-P280-P305+P351+P338-P304+P340-P362-P312-P321-P405-P403+P233-P501a
Flash Point	Not applicable
Transport Information	NONH
WGK Germany	nwg
GHS Pictograms

Nano Iron(II,III) Oxide Packaging

Our Nano Iron(II,III) Oxide is carefully handled during storage and transportation to preserve the quality of our product in its original condition.

FAQs

Q1: What is the particle size of Nano Iron(II,III) Oxide (Fe3O4) Powder?

A1: The particle size of Nano Iron(II,III) Oxide (Fe3O4) Powder is typically 80 nanometers. Custom particle sizes can be provided based on specific application requirements.

Q2: How can I request a sample or quotation for Nano Iron(II,III) Oxide (Fe3O4) Powder?

A2: You can request a sample or quotation by contacting us through our website, customer service hotline, or email. Please provide your specific needs, including particle size, quantity, and application, and we will respond with a quote and sample information as soon as possible.

Q3: How should Nano Iron(II,III) Oxide (Fe3O4) Powder be stored?

A3: Nano Iron(II,III) Oxide (Fe3O4) Powder should be stored in a cool, dry, and well-ventilated area, away from moisture, air, and contaminants. It should be kept in sealed containers to prevent oxidation and preserve its magnetic properties.