PVP modified Prussian blue nanoparticle

Product Name

Name：PVP modified Prussian blue nanoparticle

^{Product Overview}

Prussian Blue (PB for short), also known as Teng's Blue or Ferrocyanide, is a polymeric complex composed of three elements: C, N, and Fe. It generally refers to Ferrocyanide, and its molecular formula is Fe4 [Fe (CN) 6] 3. PB can be used as an antidote for the treatment of thallium and cesium poisoning, and has good biological safety.

PB is synthesized by aging crystallization of potassium ferrocyanide and polyvinylpyrrolidone (PVP). The reaction mainly involves the coordination of CN bonds in potassium ferrocyanide with Fe3+and Fe2+to form crystal nuclei, while PVP is doped with its own CN bonds to form a crystalline structure. Hollow mesoporous Prussian blue (HMPB) is prepared by etching PB with hydrochloric acid, and the cavity structure can be used to load drugs to improve tumor treatment efficiency.

^{Technical Parameter}

Diameter:400-1000nm

Concentration:1mg/mL

Solvent:water

Appearance:Blue liquid

Component:Fe[Fe(CN)6]，PVP（K30:/span>

^{Product Features}

1. Good dispersibility: The raw material PVP, as an amphiphilic substance, is easily soluble in water, resulting in PB with good water dispersibility.

2. Good drug loading capacity: The hollow mesoporous structure obtained by etching of this product has a large surface area and pore volume, which can be used as a nanocarrier to load small molecular substances such as drugs and genes, meeting different biomedical needs.

3. Multiple nano enzyme activities: PB has POD enzyme activity and can decompose H2O2 to produce hydroxyl radicals (· OH); Has SOD enzyme activity and can catalyze the production of H2O2 and O2 from peroxyl groups (· OOH); It has CAT activity and can decompose H2O2 to produce O2.

4. Excellent photothermal conversion efficiency: PB has good light absorption ability at 808 nm, which can convert light energy into heat energy. The generated heat can ablate tumor cells, and the increase in temperature can also enhance nanoenzyme activity.

Application Fields

1. Drug loading: PB, due to its unique hollow mesoporous structure, can load chemotherapy drugs, improve drug loading rate, and achieve targeted drug delivery through surface modification of targeted molecules, thereby improving therapeutic efficacy and slowing down drug side effects on normal cells.

2. Photothermal therapy: PB, due to its special lattice structure, has near-infrared light absorption characteristics and biological safety, and has been widely studied as a new type of photothermal conversion material in the application of tumor ablation.

3. Nanoenzyme therapy: PB has various nanoenzyme activities, such as POD, SOD, CAT enzyme activities, which can clear free radicals, slow down inflammation, alleviate oxidative stress reactions, catalyze hydrogen peroxide to produce oxygen, and alleviate tumor hypoxia.

4. Biomedical imaging: PBNPs have good magnetic resonance imaging (MRI) and photoacoustic imaging (PA) characteristics. At the same time, due to the advantages of their mesoporous structure and surface modification, fluorescence imaging and ultrasound imaging based on PB structure have also been synergistically used for disease diagnosis, leveraging the advantages of multimodal imaging.

^{Related Information}

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