Copper Oxide (CuO) Nanopowder/Nanoparticles, Purity: 99.5%, Size: 40-50 nm

5 grams/13 €                          
25 grams/30 €                      
100 grams/69 €  
500 grams/151 €      

Copper Oxide (CuO) Nanopowder/Nanoparticles

Purity: 99.5%, Size: 40-50 nm

Copper Oxide (CuO) Nanopowder is a highly pure, advanced p-type semiconductor material engineered with a precise nanometer-scale grain size. Characterized by its exceptional surface-area-to-volume ratio, this fine black powder exhibits outstanding catalytic activity, intense physical stability, and optimal structural uniformity. Due to its unique narrow bandgap and near-spherical morphology, it provides superior particle dispersion and high reactivity in complex matrices. This premium-grade nanomaterial is meticulously manufactured to meet the rigorous demands of advanced electronics, catalysis, and functional coating industries, ensuring reliable material consistency.

Technical Properties

SEM Image

Applications

• Advanced Catalysis & Chemical Synthesis: This nanomaterial serves as a highly efficient catalyst and co-catalyst for organic synthesis, environmental remediation, and the oxidation of hazardous gases. Its high specific surface area drastically enhances reaction rates in chemical manufacturing and industrial emissions control.
• Electronics & Energy Storage Systems: Widely utilized in the fabrication of electrochemical cells, gas sensors, and thermoelectric materials. Its optimized grain boundaries and uniform p-type semiconductor properties make it an ideal candidate for developing high-capacity lithium-ion battery anodes and advanced supercapacitors.
• Nanofluid Technology & Thermal Conductors: Integrated into specialized heat transfer fluids, lubricants, and thermal interface materials to enhance thermal conductivity. The nearly spherical nanoparticles allow for optimal suspension stability and minimize wear on mechanical parts while accelerating heat dissipation.
• Antimicrobial & Protective Coatings: Leveraged as a potent bioactive additive in marine anti-fouling paints, polymer composites, and protective architectural coatings. It effectively inhibits the growth of a wide spectrum of micro-organisms, fungi, and algae without degrading the structural integrity of the host matrix.