Product Introduction:
Gold nanocages are a class of nanostructures with tunable localized surface plasmon resonance peaks in the near-infrared region. Due to their special physical and chemical properties, including porous structure and surface functionalization as well as optical and photothermal properties, gold nanocages have attracted great attention in various biomedical applications, such as diagnosis, imaging, drug delivery and hyperthermia therapy.
Our Products
Water-soluble Gold Nanocages
Oil-soluble Gold Nanocages
PEG Functionalized Gold Nanocages (-NH2)
PEG Functionalized Gold Nanocages (-COOH)
PEG Functionalized Gold Nanocages (-OCH3)
Streptavidin Modified Gold Nanocages
Water-soluble gold nanocages have a wide range of applications, especially in the fields of tumor hyperthermia, surface-enhanced Raman scattering, and efficient drug loading.
| Product Name | Catalog Number | Surface Group | Partical Size | Concentration | Solvent |
| Water-soluble Gold Nanocages (d=40 nm) | GH-Au207 | Citric acid | 40 nm | 0.1 mg/mL | Ultrapure water |
| Water-soluble Gold Nanocages (d=50 nm) | GH-Au208 | Citric acid | 50 nm | 0.1 mg/mL | Ultrapure water |
| Water-soluble Gold Nanocages (d=60 nm) | GH-Au209 | Citric acid | 60 nm | 0.1 mg/mL | Ultrapure water |
| Water-soluble Gold Nanocages (d=70 nm) | GH-Au210 | Citric acid | 70 nm | 0.1 mg/mL | Ultrapure water |
| Water-soluble Gold Nanocages (d=80 nm) | GH-Au211 | Citric acid | 80 nm | 0.1 mg/mL | Ultrapure water |
| Water-soluble Gold Nanocages (d=100 nm) | GH-Au212 | Citric acid | 100 nm | 0.1 mg/mL | Ultrapure water |
Oil-soluble gold nanocages can be stably dispersed in organic solvents such as xylene, trichloromethane, toluene and cyclohexane. These gold nanocages can be co-dissolved with insoluble drugs, and further surface phospholipid modification to form a nanoparticle-drug-phospholipid composite structure to effectively construct nano-drug carriers. They can be used for photothermal therapy, photoacoustic imaging, surface-enhanced Raman imaging, CT imaging, and combined drug therapy. In addition, oil-soluble gold nanocages are also widely used in anti-counterfeiting materials, surface-enhanced Raman spectroscopy detection of oily systems, and fuel cells.
| Product Name | Catalog Number | Surface Group | Partical Size | Concentration | Solvent |
| Oil-soluble Gold Nanocages (d=40 nm) | GH-Au213 | Aromatic hydrocarbon | 40 nm | 0.1 mg/mL | Xylene |
| Oil-soluble Gold Nanocages (d=50 nm) | GH-Au214 | Aromatic hydrocarbon | 50 nm | 0.1 mg/mL | Xylene |
| Oil-soluble Gold Nanocages (d=60 nm) | GH-Au215 | Aromatic hydrocarbon | 60 nm | 0.1 mg/mL | Xylene |
| Oil-soluble Gold Nanocages (d=70 nm) | GH-Au216 | Aromatic hydrocarbon | 70 nm | 0.1 mg/mL | Xylene |
| Oil-soluble Gold Nanocages (d=80 nm) | GH-Au217 | Aromatic hydrocarbon | 80 nm | 0.1 mg/mL | Xylene |
| Oil-soluble Gold Nanocages (d=100 nm) | GH-Au218 | Aromatic hydrocarbon | 100 nm | 0.1 mg/mL | Xylene |
PEG functionalized gold nanocages have excellent biocompatibility and biomolecular re-modification ability. They can be used for photothermal therapy, photoacoustic imaging, surface-enhanced Raman imaging, CT imaging, and combined drug therapy.
| Product Name | Catalog Number | Surface Group | Partical Size | Concentration | Solvent |
| PEG Functionalized Gold Nanocages (-NH2) (d=40 nm) | GH-Au219 | -NH2 | 40 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-NH2) (d=50 nm) | GH-Au220 | -NH2 | 50 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-NH2) (d=60 nm) | GH-Au221 | -NH2 | 60 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-NH2) (d=70 nm) | GH-Au222 | -NH2 | 70 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-NH2) (d=80 nm) | GH-Au223 | -NH2 | 80 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-NH2) (d=100 nm) | GH-Au224 | -NH2 | 100 nm | 0.1 mg/mL | Ultrapure water |
PEG functionalized gold nanocages have excellent biocompatibility and biomolecular re-modification ability. They can be used for photothermal therapy, photoacoustic imaging, surface-enhanced Raman imaging, CT imaging, and combined drug therapy.
| Product Name | Catalog Number | Surface Group | Partical Size | Concentration | Solvent |
| PEG Functionalized Gold Nanocages (-COOH) (d=40 nm) | GH-Au225 | -COOH | 40 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-COOH) (d=50 nm) | GH-Au226 | -COOH | 50 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-COOH) (d=60 nm) | GH-Au227 | -COOH | 60 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-COOH) (d=70 nm) | GH-Au228 | -COOH | 70 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-COOH) (d=80 nm) | GH-Au229 | -COOH | 80 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-COOH) (d=100 nm) | GH-Au230 | -COOH | 100 nm | 0.1 mg/mL | Ultrapure water |
PEG functionalized gold nanocages have excellent biocompatibility and biomolecular re-modification ability. They can be used for photothermal therapy, photoacoustic imaging, surface-enhanced Raman imaging, CT imaging, and combined drug therapy.
| Product Name | Catalog Number | Surface Group | Partical Size | Concentration | Solvent |
| PEG Functionalized Gold Nanocages (-OCH3) (d=40 nm) | GH-Au231 | -OCH3 | 40 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-OCH3) (d=50 nm) | GH-Au232 | -OCH3 | 50 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-OCH3) (d=60 nm) | GH-Au233 | -OCH3 | 60 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-OCH3) (d=70 nm) | GH-Au234 | -OCH3 | 70 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-OCH3) (d=80 nm) | GH-Au235 | -OCH3 | 80 nm | 0.1 mg/mL | Ultrapure water |
| PEG Functionalized Gold Nanocages (-OCH3) (d=100 nm) | GH-Au236 | -OCH3 | 100 nm | 0.1 mg/mL | Ultrapure water |
Streptavidin modified gold nanocages can bind biotinylated proteins or oligonucleotides to meet the different experimental needs of researchers. Streptavidin-biotin system is characterized by high sensitivity, good specificity, high stability and wide application.
| Product Name | Catalog Number | Surface Group | Partical Size | Concentration | Solvent |
| Streptavidin Modified Gold Nanocages (d=40 nm) | GH-Au237 | SA | 40 nm | 0.1 mg/mL | Ultrapure water |
| Streptavidin Modified Gold Nanocages (d=50 nm) | GH-Au238 | SA | 50 nm | 0.1 mg/mL | Ultrapure water |
| Streptavidin Modified Gold Nanocages (d=60 nm) | GH-Au239 | SA | 60 nm | 0.1 mg/mL | Ultrapure water |
| Streptavidin Modified Gold Nanocages (d=70 nm) | GH-Au240 | SA | 70 nm | 0.1 mg/mL | Ultrapure water |
| Streptavidin Modified Gold Nanocages (d=80 nm) | GH-Au241 | SA | 80 nm | 0.1 mg/mL | Ultrapure water |
| Streptavidin Modified Gold Nanocages (d=100 nm) | GH-Au242 | SA | 100 nm | 0.1 mg/mL | Ultrapure water |
