Gold Iron Oxide Core Shell Nanoparticles

400 INR/Bottle

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Product Details:

Poisonous Yes
Shape Spherical (typically 10-70 nm diameter)
Structural Formula Core-shell (Fe3O4 core with Au shell, or vice versa)
Storage Store at 2-8C, protect from light, keep in dry conditions
Molecular Weight Variable (depends on core/shell ratio and particle size)
Density 19.3 Gram per cubic centimeter(g/cm3)
Purity >99%
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Gold Iron Oxide Core Shell Nanoparticles Price And Quantity

Price 400 INR/Bottle
Minimum Order Quantity 1 Gram

Gold Iron Oxide Core Shell Nanoparticles Product Specifications

Shape Spherical (typically 10-70 nm diameter)
Poisonous Yes
Solubility Dispersible in water (as coated); insoluble in most organic solvents
Standard Meets analytical laboratory and biomedical research standards
Main Material Gold (Au) and Iron Oxide (Fe3O4 or Fe2O3)
EINECS No 231-579-4 (Gold), 215-168-2 (Iron Oxide)
Other Names Au@FeOx Nanoparticles; Gold-coated Iron Oxide Nanoparticles
Type Core-shell nanoparticles
HS Code 28439000
Grade Research grade
Usage Research, diagnostics, nanomedicine
Form Colloidal suspension or dry powder
Density 19.3 Gram per cubic centimeter(g/cm3)
Refractive Rate n 2.5-2.7 (varies by wavelength and structure)
Purity >99%
Classification Inorganic nanoparticle composite
Boiling point Not applicable (nanostructure is stable below constituent boiling points)
Molecular Weight Variable (depends on core/shell ratio and particle size)
Storage Store at 2-8C, protect from light, keep in dry conditions
Smell Odorless
Molecular Formula Au@Fe3O4 or Au@Fe2O3
Melting Point Not applicable (nanoparticulate composite)
Chemical Name Gold Iron Oxide Core Shell Nanoparticles
CAS No 7440-57-5 (Gold), 1317-61-9 (Fe3O4)
Ph Level Neutral (7.0) in colloidal solution
Structural Formula Core-shell (Fe3O4 core with Au shell, or vice versa)

Product Description

Gold Iron Oxide Core Shell Nanoparticles Description

Gold Iron Oxide Core Shell Nanoparticles is generally immediately available in most volumes. High purity, submicron and nanopowder forms may be considered. Nanochemazone produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available, as is additional technical and safety (MSDS) data. Please contact us for information on lead time and pricing above.

Cutting-Edge Biomedical Applications

Gold Iron Oxide Core Shell Nanoparticles stand at the forefront of nanomedical innovation. Thanks to their superparamagnetic and plasmonic properties, these nanoparticles are ideally suited for a wide spectrum of applications including targeted imaging, drug delivery, biosensing, magnetic separation, and photothermal therapy. Their customizable surface coatings enable precise targeting for specific research or diagnostic needs, supporting advanced workflows in academic, clinical, or commercial laboratories.

Customizable Surfaces for Enhanced Performance

Our nanoparticles can be surface-coated with PEG, dextran, or antibody molecules-tailored to meet your unique experimental requirements. Surface functionalization ensures improved biocompatibility, colloidal stability, and effective targeting for a range of biomedical and life sciences applications. This enables researchers and clinicians to achieve higher specificity, reduced off-target effects, and enhanced reproducibility across varied analytical procedures.

Unmatched Quality and Stability

Produced to research-grade standards, these nanoparticles deliver >99% purity and monodispersity (less than 15% size variation). The colloidal solution is stable for up to 12 months when stored at 2-8C, protected from light. Each batch undergoes rigorous quality control, making them reliable for consistent results in demanding research and diagnostic environments. Gold Iron Oxide Core Shell Nanoparticles provide dependable performance for innovative scientific pursuits.

FAQ's of Gold Iron Oxide Core Shell Nanoparticles:

Q: How can these nanoparticles be tailored for specific research applications?

A: The surface of Gold Iron Oxide Core Shell Nanoparticles can be functionalized with PEG, dextran, or antibodies according to your requirements. This allows customization for various applications such as drug delivery, biosensors, magnetic separation, or targeting specific cell types in biomedical research.

Q: What benefits do the superparamagnetic and optical properties provide?

A: These nanoparticles exhibit superparamagnetic behavior, allowing easy control and manipulation using external magnetic fields-ideal for imaging, magnetic separation, or targeted delivery. Their gold shell also enables surface plasmon resonance, which is useful in optical detection methods and photothermal therapy.

Q: When should I use water or buffer as the dispersant?

A: The nanoparticles are dispersible in water or appropriate buffers such as PBS. Use water for general applications, or PBS/buffered solutions to maintain physiological conditions in biological assays and experiments where ion concentration and pH stability are crucial.

Q: Where should the nanoparticles be stored for optimal stability?

A: To ensure stability and longevity, store the nanoparticles at 2-8C in a dry environment and protect them from direct light. Proper storage maintains their functional properties and prolongs shelf life up to 12 months.

Q: What is the recommended process for handling and using these nanoparticles?

A: For best results, resuspend the nanoparticles in the supplied dispersant before use. Avoid high temperatures, and handle under laboratory conditions using sterile techniques if working with biological samples. Follow the product instructions to maintain particle stability and integrity throughout experiments.

Q: How does surface functionalization improve nanoparticle performance?

A: Surface functionalization enhances colloidal stability, biocompatibility, and targeting capabilities. Coating with PEG or dextran reduces non-specific binding, while antibody-conjugated particles offer precise targeting of biological molecules or cells, boosting experimental efficiency and specificity.

Q: What makes these nanoparticles advantageous for biomedical imaging and therapy?

A: Gold Iron Oxide Core Shell Nanoparticles blend magnetic and optical advantages for multimodal imaging and therapy. Their superparamagnetic core improves contrast in magnetic imaging, while gold shell properties facilitate photothermal effects for therapeutic applications and sensitive bio-detection.

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