Technical Specifications:
- Chemical Composition:
- Primary Ingredient: Manganese Iron Oxide (MnFe₂O₄).
- Purity: 99.99% (ultra-high purity for advanced applications).
- Nanoparticle Size:
- Particle Size: 28 nm (nanometers).
- Particle Shape: Typically spherical or near-spherical, depending on synthesis method.
- Crystal Structure:
- Structure: Spinel ferrite structure with high chemical and thermal stability.
- Magnetic Properties:
- Exhibits superparamagnetic behavior due to nanoscale size.
- High magnetic susceptibility, suitable for magnetic and biomedical applications.
- Density:
- Lower apparent density compared to bulk material due to fine nanoparticle structure.
- Other Characteristics:
- Color: Black or dark brown.
- Thermal Stability: Retains magnetic and structural properties at high temperatures.
- Reactivity: High surface area enhances reactivity in catalytic and sensing applications.
Applications:
- Biomedical Applications:
- Purpose: MnFe₂O₄ nanoparticles are widely used in biomedical fields due to their magnetic properties and biocompatibility.
- Application: Utilized in magnetic resonance imaging (MRI) as contrast agents, targeted drug delivery, and hyperthermia cancer treatments.
- Magnetic Storage Devices:
- Purpose: Suitable for high-density magnetic data storage.
- Application: Incorporated into advanced magnetic recording materials for data storage applications.
- Catalysis:
- Purpose: Acts as an efficient catalyst or catalyst support in chemical reactions.
- Application: Used in environmental catalysis for pollutant degradation, water splitting, and as a catalyst in organic synthesis reactions.
- Sensors:
- Purpose: The magnetic and electrical properties of MnFe₂O₄ make it ideal for sensing applications.
- Application: Used in gas sensors, biosensors, and humidity sensors for detecting environmental and biological changes.
- Energy Storage:
- Purpose: MnFe₂O₄ nanoparticles enhance the performance of energy storage systems.
- Application: Utilized in lithium-ion batteries, supercapacitors, and hybrid energy storage devices to improve capacity and cycle stability.
- Environmental Remediation:
- Purpose: Effective in removing pollutants from water and soil.
- Application: Used in adsorptive removal of heavy metals, organic pollutants, and dyes from wastewater.
- Magneto-Optical Applications:
- Purpose: Exhibits unique magneto-optical properties for advanced photonic devices.
- Application: Used in optical isolators, modulators, and advanced optical communication systems.
- Magnetic Fluids:
- Purpose: Forms stable colloidal dispersions with magnetic responsiveness.
- Application: Employed in ferrofluids for damping, sealing, and biomedical applications.
- 3D Printing and Additive Manufacturing:
- Purpose: The nanoscale size makes it suitable for high-performance material formulations.
- Application: Incorporated into inks and resins for manufacturing magnetic and conductive components.
- Thermal Applications:
- Purpose: High thermal conductivity and magnetic properties make it suitable for heat management.
- Application: Used in advanced cooling systems and heat transfer applications.
Key Benefits:
- Superparamagnetic Properties: Ideal for biomedical, magnetic storage, and magneto-optical applications.
- High Purity: The 99.99% purity ensures minimal contamination, critical for sensitive applications such as MRI and catalysis.
- Nanoscale Advantages: Enhanced surface area and reactivity improve performance in catalytic, sensing, and energy storage applications.
- Thermal and Chemical Stability: Maintains properties under extreme conditions, suitable for industrial and environmental applications.
- Biocompatibility: Safe for use in biomedical applications, including imaging and drug delivery.
Manganese Iron Oxide Nanopowder (MnFe₂O₄) is a versatile material with applications in biomedical fields, catalysis, sensors, energy storage, and environmental technologies, offering exceptional performance due to its unique magnetic, thermal, and structural properties.
