Oil-Soluble Gold Nanocages

element：Gold (Au)
purity：High purity
shape：Nanocages
specification：Customizable particle diameters (e.g., 40, 50, 60, 70, 80, 100 nm, etc.)
packaging：Sealed packaging, stored at room temperature

Oil-soluble gold nanocages provide optimized hollow nanostructures, superior plasmonic properties, and enhanced photothermal efficiency. Designed for advanced applications, they ensure efficient dispersion, extended durability, and high-performance adaptability.

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产品描述
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Product Overview

Oil-soluble gold nanocages are hollow, nanoscale metal structures made of gold. These materials have widespread applications in biomedicine, optical imaging, catalysis, and more. Their excellent surface plasmon resonance (SPR) effects allow them to stably disperse in oil-based solvents, making them ideal for use in multifunctional nanocarriers and probes.

Features

Surface-Enhanced Raman Scattering (SERS): Gold nanocages exhibit outstanding SERS properties, making them highly suitable for surface-enhanced Raman spectroscopy (SERS) detection.
Multifunctionality: These nanocages can serve as multimodal probes and multifunctional carriers, opening up a wide range of potential applications across various fields.
Excellent Optical Properties: In applications like photothermal therapy and photoacoustic imaging, gold nanocages offer high photothermal conversion efficiency and imaging performance.
High Stability: Gold nanocages maintain good dispersion and stability in oil-based systems, ensuring long-term effectiveness and usability.

Applications

Nanomedicine: Used to construct nano-drug carriers, particularly in targeted therapy and controlled drug release systems.
Photothermal Therapy: Gold nanocages leverage their photothermal effects for treating conditions like tumors and other diseases.
Photoacoustic Imaging: Act as imaging probes to enhance the sensitivity and resolution of photoacoustic imaging techniques.
Surface-Enhanced Raman Imaging: Utilized in high-sensitivity biomolecule detection and analysis via SERS.
CT Imaging: Serve as contrast agents in medical imaging, improving the quality and clarity of CT scans.
Multimodal Nanoprobe Construction: These nanocages can be integrated with multiple imaging modes (optical, acoustic, and CT) to achieve multifunctional imaging capabilities.
Multifunctional Nanocarriers: Employed as carriers in various biomedical applications, including drug delivery, diagnostics, and gene therapy.
Anti-Counterfeit Materials: Used in anti-counterfeit tags and authentication technologies to enhance product security.
Oil-Soluble SERS Detection: Suitable for chemical analysis and detection in oil-based environments, enhancing sensitivity in oil-based systems.
Fuel Cells: Act as catalysts in fuel cells, improving efficiency and performance.