Description
Nano Copper Oxide (Nano CuO, 50 nm) is an Ultra High Purity (UHP) nanomaterial renowned for its exceptional catalytic, electrical, and antimicrobial performance. With a purity of ≥99.9 wt% and a mean particle size of 50 nm, it delivers superior surface reactivity and functional versatility across a wide range of high-technology fields.
Engineered under strict quality control, this UHP-grade CuO powder features minimal metallic impurities, uniform nanoscale distribution, and excellent dispersibility — making it ideal for use in catalysis, electronic devices, coatings, and energy systems.
Chemical Name: Nano Copper Oxide (CuO)
Molecular Formula: CuO
CAS No.: 1317-38-0
EINECS No.: 215-269-1
Molecular Weight: 79.55
Appearance: Black fine powder
Average Particle Size (D₅₀): ≈50 nm
Grade: Ultra High Purity (UHP)
Specifications:
CuO Purity: 99.9 wt%
Insolubles in Acid: ≤20 ppm
Fe (Iron): ≤30 ppm
Cd (Cadmium): ≤10 ppm
Pb (Lead): ≤5 ppm
Hg (Mercury): ≤5 ppm
As (Arsenic): ≤5 ppm
Cr (Chromium): ≤10 ppm
Total Metallic Impurities (Σ): ≤0.1 wt%
Crystal Phase: Monoclinic CuO
Specific Surface Area (BET): 20–40 m²/g
Loss on Ignition (1000 °C, 2 h): ≤0.5 wt%
pH (10% Suspension): 6.0–8.0
Key Features:
1) Ultra High Purity (≥99.9%) – Assures reliable performance and chemical stability.
50 nm Nanostructure – Provides enhanced surface area and reactivity.
2) High Catalytic Activity – Effective for oxidation, reduction, and photocatalytic reactions.
3) Antimicrobial Functionality – Inhibits bacterial and fungal growth on coated surfaces.
4) Electrical Conductivity – p-type semiconductor suitable for sensors and power devices.
5) Thermal & Chemical Stability – Withstands harsh industrial and environmental conditions.
Applications:
1) Catalysts & Environmental Systems: Used in oxidation catalysts, pollutant removal, and gas sensors.
2) Energy & Electronics: Applied in solar cells, lithium batteries, and supercapacitors.
3) Antimicrobial Coatings: Integrated in paints, textiles, and healthcare materials.
4) Advanced Materials: Improves conductivity and durability in composites and coatings.