Mesoporous Magnetic Prussian Blue

Product Name

^{Name:Mesoporous Magnetic Prussian Blue}

Product Overview

^{Magnetic mesoporous Prussian blue is a magnetic composite material formed by combining magnetic components into PB to enhance anti-cancer nanomedicine performance, which can be used as a thermal therapy agent under alternating magnetic fields. Magnetic Prussian blue composite materials are polycrystalline with abundant grain boundary defects, which can be extended into the mesopores through controlled etching strategies. The material obtained by using a controlled etching strategy to expand mesopores in Prussian blue shells and magnetite cores exhibits potential as a carrier for anticancer drugs, as well as the potential to act as a hypertonic agent under the stimulation of near-infrared lasers and external magnetic fields.}

^{Technical Parameter}

^{Appearance:Blue dispersion}

^{Concentration ( mg/mL):1}

^{Ingredient:Fe3O4@PB}

^{Solvent:water}

^{Diameter（nm:300-500nm（TEM:/span>}

^{Pore size（nm:~10nm}

^{Note: Pore size data is a single measurement data, and different batches are allowed to float.}

Product Features

^{1) Magnetic responsiveness: Magnetic Prussian blue nanoparticles have significant magnetic responsiveness, making them easy to perform magnetic separation and manipulation. This characteristic is of great significance in fields such as biomedicine and environmental protection, and can be used for magnetic targeted drug delivery, magnetic separation technology, etc.}

^{2) High adsorption capacity: Due to its mesoporous structure and high specific surface area, magnetic mesoporous Prussian blue can adsorb more target molecules or ions, such as heavy metal ions, organic pollutants, etc.}

^{3) Good catalytic performance: The mesoporous structure facilitates the diffusion of reactants and the release of products, thereby improving catalytic efficiency. Prussian blue, as an iron-based material, has a certain catalytic activity, and its mesoporous structure further enhances its catalytic performance.}

^{Application Fields}

^{It can be used as a drug delivery carrier to achieve targeted delivery and targeted release of drugs; It can also be used as a biosensor to detect changes in the concentration of biomolecules or ions. It can also play a role in environmental protection fields such as wastewater treatment and heavy metal ion removal.}

^{Related Information}

^{Please e-mail for the detailed characterization data.}

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