Product Name
Pd nanoparticles
Product Overview
Due to their unique physical and chemical properties, precious metal nanoparticles, represented by platinum, gold, silver and palladium, have been widely studied by many scientists. Palladium is a precious metal belonging to the platinum group of elements, and its monomers are silver-white transition metals with soft texture, good ductility and plasticity. Palladium nanoparticles show excellent potential for applications in various fields due to their unique physical, chemical and electronic properties. Palladium nanoparticles can be prepared by two main methods: chemical reduction and physical reduction. The chemical reduction method generally involves the reduction of palladium ions to palladium monomers by adding a reducing agent, and the reducing agents used are generally sodium citrate, sodium borohydride, hydrogen, etc. The chemical reduction method is generally used to reduce palladium ions to palladium monomers by adding a reducing agent. Due to the rapidity of the chemical reduction process, it is generally necessary to add protective agents such as polyvinylpyrrolidone (PVP) in order to prevent agglomeration of the palladium particles.
Technical Parameter
Size: 15-25 nm
Status :Brown-black liquid
Concentration:mg/ml( water)
Surface modification:PVP
Product Features
Catalytic performance: Palladium nanoparticles exhibit extremely high catalytic activity in petrochemicals, fine chemicals, organic synthesis and polymer modification materials, especially in hydrogenation and cross-coupling reactions.
Hydrogen storage capacity: Palladium is capable of absorbing large amounts of hydrogen and is therefore widely used in the field of hydrogen storage materials.
Biomedical applications: Palladium nanoparticles have potential applications in antibacterial, wound healing, antioxidant and anticancer applications.
Application Fields
Catalysts: Palladium nanoparticles are widely used as highly efficient catalysts in petrochemicals and fine chemicals, such as in the formation of carbon-carbon bonds in the Suzuki and Heck reactions.
Fuel cells: In fuel cells, palladium nanoparticles are used as electrocatalysts to improve the efficiency of hydrogen oxidation.
Hydrogen storage materials: Palladium nanoparticles are used as efficient hydrogen storage materials due to their high hydrogen storage capacity.
Biomedical applications: They have also been extensively studied in the fields of cancer therapy, targeted drug delivery, detection/diagnostics and bio-imaging
Related Information
Sealed, avoid light and keep at 4¡ãCExpiry date: 6 months
Please e-mail for the detailed characterization data.
E-mail:sale@xfnano.com
