Manganese Oxide Nanoparticles / Mn₃O₄ Nanopowder (99.95%, 30 nm, Laser-Made)

Description

Manganese Oxide Nanoparticles / Mn₃O₄ Nanopowder (99.95%, 30 nm, Laser-Made)

Manganese Oxide (Mn₃O₄) Nanopowder is a yellow-brown nanomaterial with extremely high purity (99.95%) and an average particle size of 30 nm, produced via laser synthesis technology. Its narrow particle size distribution ensures excellent consistency and high surface reactivity.

With a specific surface area of 65 m²/g, a bulk density of 0.78 g/cm³, and a strong oxidative capacity, Mn₃O₄ nanoparticles exhibit exceptional catalytic, electrical, and optical performance. The compound contains manganese in mixed oxidation states (+2 and +3), giving it multifunctional properties for both industrial and research applications.

Mn₃O₄ is also a valuable raw material in the battery industry, glass production, electronics, catalysis, and magnetic materials. Its high purity, derived from super-grade metallic manganese, makes it particularly suitable for advanced and sensitive applications.

Technical Specifications

• Chemical Formula: Mn₃O₄ (MnO·Mn₂O₃)

• Purity: 99.95% (trace metal basis)

• Average Particle Size (APS): 30 nm (narrow distribution)

• Specific Surface Area (SSA): 65 m²/g

• Color: Yellow Brown

• Bulk Density: 0.78 g/cm³

• Production Method: Laser-made

• Molecular Weight: 228.81 g/mol

• Density: 4.86 g/cm³

• Melting Point: 1560 °C

Impurity Profile (ppm):
Fe ≤0.008%, Cu ≤0.0047%, Pb ≤0.0022%, Cd ≤0.0002%, As ≤0.0013%, Ni ≤0.006%, Ca ≤0.0029%, Mg ≤0.0051%, Na ≤0.0057%, K ≤0.003%.

Applications

1. Energy & Battery Industry

   • Cathode/anode material in lithium-ion and alkaline batteries

   • Bleaching agent for battery-grade chemicals

   • Enhances electrochemical performance in rechargeable storage systems

2. Glass & Ceramics

   • Used in the glass industry as a decolorizing and bleaching agent

   • Improves ceramic stability and coloration

3. Catalysis & Chemical Industry

   • Efficient catalyst for organic synthesis

   • Applied in oxidation and reduction reactions

   • Works as a drying agent in paints, coatings, and inks

4. Electronics & Magnetic Materials

   • Raw material for ferrite magnetic materials

   • Applied in voltage-sensitive and temperature-sensitive resistors

   • Used in the production of electronic components and magnetic devices

5. Other Applications

   • High-performance additive in polymers and coatings

   • Applied in environmental catalysis and water treatment research