Au Nanocage

Product Name

Name：Au Nanocage

^{Product Overview}

Gold nanocages (AuNCs) are hollow porous nanocrystals made of gold (Au) or gold based alloys. The preparation method of gold nanocages is mainly through the electrodisplacement reaction between silver nanocubes and chloroauric acid.

^{Technical Parameter}

 

Form : light blue colloid

Concentration: 0.1mg/ml

Zeta potential¡ãC15 mV

particle diameter:40,50,60,80,90,100 nm  

ingredient:Sodium citrate modified Au nanocage、water

^{Product Features}

 

The gold nanocages provided by Xianfeng Nano have different diameter sizes to choose from.

Hollow structure: Gold nanocages have a hollow internal structure, which makes them potentially applicable in photothermal conversion and drug delivery.

Porous walls: Their walls are porous, which increases the surface area and helps to enhance interactions with biomolecules.

High photothermal conversion efficiency: Gold nanocages can efficiently convert absorbed light energy into thermal energy, making them very useful in photothermal therapy.

Adjustable optical properties: By changing the size, shape, and wall thickness of gold nanocages, their local surface plasmon resonance (LSPR) can be adjusted, thereby modulating their optical absorption properties.

Near infrared absorption: The absorption peak of gold nanocages can be located in the near-infrared region, where light has good tissue penetration and is suitable for biomedical imaging and treatment.

Biocompatibility: Gold nanocages typically have good biocompatibility and are suitable for biomedical applications.

Easy surface modification: The surface of gold nanocages can be modified to enhance their stability and targeting, which is crucial for applications such as drug delivery and biological imaging.

Application Fields

 

Photothermal therapy: Gold nanocages have excellent photothermal conversion efficiency, which can absorb near-infrared light and convert it into thermal energy for photothermal therapy of cancer.

Drug delivery system: The hollow structure of gold nanocages can be used to load drugs, achieving targeted drug delivery and controlled release.

Diagnostic imaging: The optical properties of gold nanocages make them potentially applicable in various imaging techniques, such as optical coherence tomography (OCT) and photoacoustic imaging (PAT).

Biosensing: The surface plasmon resonance (LSPR) characteristics of gold nanocages can be used to develop highly sensitive biosensors.

Catalysis: The high specific surface area and adjustable chemical composition of gold nanocages make them potentially applicable in catalytic reactions.

Simulating apoptotic cells: Gold nanocages can simulate apoptotic cells and be used to study the process of cell apoptosis and related diseases.

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