Caesium Oxide Nanopowder/Nanopowder (CsO2, 30-50nm, purity 99.5%)
₹4490.00
Caesium Oxide Nanoparticles / Nanopowder (CsO₂, 30–50 nm, Purity 99.5%)
⚙️ Technical Specifications
Property | Specification |
|---|---|
Product Name | Caesium Oxide Nanoparticles / Nanopowder |
Chemical Formula | CsO₂ |
Purity | ≥ 99.5% |
Particle Size | 30–50 nm |
Appearance | Yellowish to light brown fine powder |
Crystal Structure | Cubic / Orthorhombic (depending on preparation) |
Density | ~4.65 g/cm³ |
Melting Point | ~490°C |
Solubility | Reacts with water and moisture; soluble in acids |
Morphology | Spherical / fine polycrystalline nanoparticles |
CAS Number | 20281-00-9 |
🌟 Key Features
High purity (≥99.5%) with fine particle size (30–50 nm)
Excellent electronic, catalytic, and optical properties
Highly reactive and sensitive to moisture and air
Exhibits superoxide (CsO₂) oxidation state, useful in special chemical and catalytic systems
Ideal for electronic, catalytic, and photoelectric applications
Should be handled under dry and inert (argon/nitrogen) atmosphere
🔬 Applications (in Detail)
1. Catalysis
Used as a catalyst and promoter in organic and inorganic synthesis.
Plays a role in oxidation reactions and selective catalytic conversions due to its superoxide nature.
Applied in fuel cells and chemical sensors as a reactive oxygen species source.
2. Electronic & Photonic Devices
Exhibits unique semiconducting and photoelectric properties.
Used in photocathodes, photoemissive coatings, and electronic detectors.
Suitable for research in quantum materials and ion-conducting ceramics.
3. Energy Storage & Conversion
Studied for potential use in solid-state batteries and ion conductors.
Acts as an oxygen reservoir in certain catalytic and electrochemical systems.
4. Optical & Thin Film Coatings
Used in photoelectric and optoelectronic coatings.
Enhances infrared and UV response in specialized optical devices.
5. Research & Advanced Materials
Extensively used in research on alkali metal oxides, superoxides, and peroxides.
Serves as a precursor in material science, surface chemistry, and advanced ceramics research.