All Nano Catalyst

18nm Gold Nanoparticles
Average size : 18 ± 2 nm
Size distribution ( CV% ) : < 5%
Peak wavelength : 518-520 nm

30nm Gold Nanoparticles
Average size : 30 ± 3 nm
Size distribution ( CV% ) : < 5%
Peak wavelength : 522 ± 2 nm

40nm Gold Nanoparticles
Average size: 40 ± 3 nm
Size distribution ( CV% ) : < 10%
Peak wavelength : 526 ± 2 nm

40 nm Au/Pt Nanocomposites
Average size : 40 ± 3 nm
Size distribution ( CV% ) : < 10%
Peak wavelength : 526 ± 2 nm

3 nm Platinum Nanoparticles
Average size : 3 ± 2 nm
Size distribution ( CV% ) : < 10%
Peak wavelength : 518-520 nm

Iron oxide (Fe3O4) serves as a catalyst carrier, providing support and enhancement to catalytic active sites, thereby improving the stability and efficiency of catalysts. With its high surface area, good stability, and magnetic properties, iron oxide is an ideal material widely used in catalytic reactions. By immobilizing the catalyst onto the surface or pores of iron oxide, the dispersion and stability of the catalyst can be improved, enabling highly efficient catalytic conversion of reactants.

Furthermore, due to its biocompatibility, iron oxide finds extensive applications in the field of medicine, such as contrast agents for magnetic resonance imaging (MRI), drug delivery, and cancer treatment. Iron oxide also exhibits excellent adsorption capability and catalytic activity, making it valuable in environmental protection and water treatment for the removal of heavy metal ions and organic pollutants. Additionally, the semiconductor characteristics of iron oxide make it an important component in electronic devices, including sensors and memory storage.
 

30nm Silver Nanoparticles
Average size : 30 ± 5 nm
Size distribution ( CV% ) : < 5%
Peak wavelength : 518-520 nm

50～70 nm
Average size : 100 ± 5 nm
Size distribution ( CV% ) : < 10%
Peak wavelength : 266 nm