Silver Iodide Silica Core Shell Nanoparticles

550 INR/Bottle

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Product Details:

HS Code 28429090
Shape Spherical Core-Shell
Molecular Weight AgI (234.77 g/mol), SiO2 (60.08 g/mol)
Structural Formula Silver Iodide core encapsulated by Silica shell
Molecular Formula AgI@SiO2
Smell Odorless
Storage Store in cool, dry place, protected from light and moisture
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Silver Iodide Silica Core Shell Nanoparticles Price And Quantity

Minimum Order Quantity 1 Gram
Price 550 INR/Bottle

Electrical Conductivity Enhanced compared to bare SiO2
Surface Functionalization Available upon request, e.g., amine, carboxyl groups
Stability High chemical and photothermal stability
Particle Size 20-100 nm (customizable)
Agglomeration Low, due to silica shell barrier
Customization Size, surface, and shell thickness customizable
Safety Handle using standard nanomaterials safety protocols
Zeta Potential Adjustable depending on surface modification
Appearance White to pale yellow powder or colloidal suspension
Shelf Life Up to 12-24 months under recommended storage
Dispersibility Stable in polar solvents with appropriate surfactants

Silver Iodide Silica Core Shell Nanoparticles Product Specifications

Storage Store in cool, dry place, protected from light and moisture
Standard Custom synthesis, conforming to nanomaterial standards
Purity >99%
Other Names AgI@SiO2 Core-Shell Nanoparticles
Chemical Name Silver Iodide Silica Core Shell Nanoparticles
Poisonous Yes
CAS No 7783-96-2 (AgI), 7631-86-9 (SiO2)
Usage Laboratory, Industrial, Research purposes
Classification Inorganic Nanoparticle
Type Core Shell Nanoparticle
EINECS No 232-022-4 (AgI), 231-545-4 (SiO2)
Application Cloud seeding, antibacterial, catalyst, sensing, advanced material research
Melting Point Silver Iodide ~558C; Silica ~1,710C
Solubility Insoluble in water, dispersible in certain organic solvents
Refractive Rate AgI: ~2.2, SiO2: 1.46
Boiling point Not applicable (decomposes before boiling)
Density 5.675 Gram per cubic centimeter(g/cm3)
Form Dispersion/Suspension or Powder
Ph Level Neutral (7)
HS Code 28429090
Shape Spherical Core-Shell
Molecular Weight AgI (234.77 g/mol), SiO2 (60.08 g/mol)
Structural Formula Silver Iodide core encapsulated by Silica shell
Molecular Formula AgI@SiO2
Smell Odorless
Main Material Silver Iodide and Silica (SiO2)
Grade Nanomaterial Grade

Electrical Conductivity Enhanced compared to bare SiO2
Surface Functionalization Available upon request, e.g., amine, carboxyl groups
Stability High chemical and photothermal stability
Particle Size 20-100 nm (customizable)
Agglomeration Low, due to silica shell barrier
Customization Size, surface, and shell thickness customizable
Safety Handle using standard nanomaterials safety protocols
Zeta Potential Adjustable depending on surface modification
Appearance White to pale yellow powder or colloidal suspension
Shelf Life Up to 12-24 months under recommended storage
Dispersibility Stable in polar solvents with appropriate surfactants

Product Description

Silver Iodide Silica Core Shell Nanoparticles Description

Silver Iodide Silica 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.

Superior Stability and Dispersibility

The silica shell surrounding the Silver Iodide core provides exceptional chemical, photothermal, and physical stability. This structure significantly reduces agglomeration and enables consistent particle dispersion in polar solvents with suitable surfactants. Users benefit from reliable performance in lab and industrial procedures over a shelf life of 12-24 months.

Customizable Properties and Applications

Our core shell nanoparticles can be tailored in terms of size (20-100 nm), surface groups (amine, carboxyl, etc.), and shell thickness upon request. This flexibility permits precise suitability for diverse applications, such as cloud seeding, antibacterial uses, catalysts, sensors, and advanced material research, meeting strict nanomaterial grade standards.

FAQ's of Silver Iodide Silica Core Shell Nanoparticles:

Q: How are the Silver Iodide Silica Core Shell Nanoparticles typically used in research and industry?

A: These nanoparticles are applied in areas like cloud seeding, antibacterial treatments, catalysis, chemical sensing, and advanced material research, thanks to their high purity and stable dispersion capabilities.

Q: What are the main benefits of the silica shell in these nanoparticles?

A: The silica shell minimizes agglomeration, enhances chemical and photothermal stability, and allows for surface functionalization, leading to improved dispersibility and customizable electrical or chemical properties.

Q: When should surface functionalization be requested for these nanoparticles?

A: Surface functionalization, such as amine or carboxyl groups, should be requested when specific dispersion, reactivity, or binding characteristics are needed for your intended application.

Q: Where are these nanoparticles best stored?

A: Store the nanoparticles in a cool, dry place, protected from light and moisture, to maintain their chemical integrity and extend the shelf life up to 12-24 months.

Q: What is the process for customizing the particle size and shell thickness?

A: Customization is available upon request. Specifications for particle size, shell thickness, and surface groups can be provided prior to synthesis to meet unique application requirements.

Q: How does the electrical conductivity of these nanoparticles compare to bare silica?

A: Due to the conductive Silver Iodide core, these nanoparticles exhibit enhanced electrical conductivity relative to pure SiO2, making them suitable for sensor and catalytic applications.

Q: What safety precautions are advised for handling these nanoparticles?

A: Handle the nanoparticles using standard nanomaterial safety protocols, including wearing gloves, masks, and conducting procedures in well-ventilated areas to ensure safe laboratory or industrial use.

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