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Silica Shelled Nanoparticle

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Silica Shelled Nanoparticle Specification

EINECS No
231-545-4

Acid Resistance
Excellent

Operating Temperature
Up to 1000C

Moisture Content
<0.5%

Ph Level
7.0 8.5

Hardness
6 7 Mohs

Particle Size
20 80 nm

Color
White

Molecular Formula
SiO2

Alkali Resistance
Good

Chemical Name
Silica Shelled Nanoparticle

Other Names
Silica-Coated Nanoparticles

CAS No
7631-86-9

Purity
>99%

Appearance
White Powder

Physical State
Solid

Raw Material
Synthetic Silica

Molecular Weight
60.08 g/mol

Insoluble %
<0.2%

Silica Shelled Nanoparticle Trade Information

Delivery Time
15 Days

Main Domestic Market
All India

About Silica Shelled Nanoparticle

NanoXact Silver Nanoplates Silica Shelled

pH of solution: 8.5 to 10.0

Particle surface: silanol

Solvent: aqueous 10 mM sodium bicarbonate buffer

Peak 660 nm 80 nm diameter (40 nm core with 20 nm shell)

Peak 800 nm 100 nm diameter (60 nm core with 20 nm shell)

Peak 980 nm 140 nm diameter (100 nm core with 20 nm shell)

Peak 1064 nm 190 nm diameter (150 nm core with 20 nm shell)

Available Volume: 1ml, 5ml, 10ml, 30ml

Available Concentration: 1 mg/mL in 10 mM sodium bicarbonate

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High Surface Area & Stability

With a surface area between 150-300 m2/g and a stable structure, Silica Shelled Nanoparticles offer excellent dispersion in a variety of media. Their stability across a pH range of 3-11 and resistance to both acid and alkali environments make them advantageous for industrial and biomedical applications requiring reliability and robustness.

Versatile Applications & Benefits

These nanoparticles are utilized in catalysts, coatings, drug delivery systems, electronics, and biomedicine. Their high purity (>99%), minimal agglomeration, and substantial thermal and chemical resistance enhance efficiency, improve product lifespans, and offer adaptable solutions across industries, making them a preferred choice for advanced material needs.

Safe Handling & Storage

Packed in airtight HDPE bottles, Silica Shelled Nanoparticles should be stored in dry, well-ventilated environments. This ensures their shelf life of up to 24 months and preserves their low moisture content (<0.5%). Handling requires standard precautions as the product is non-toxic and insoluble in water, facilitating convenient storage and use.

FAQ's of Silica Shelled Nanoparticle:

Q: How should Silica Shelled Nanoparticles be dispersed for consistent results?

A: To achieve a uniform dispersion of Silica Shelled Nanoparticles, it is recommended to use ultrasonication or mechanical stirring. These methods help break up aggregates and allow for even distribution in liquid formulations or composite materials.

Q: What are the ideal storage conditions for these nanoparticles?

A: These nanoparticles should be kept in a tightly closed container, stored in a dry and well-ventilated location. This helps maintain their properties, prevents agglomeration, and ensures a shelf life of up to 24 months.

Q: Where can Silica Shelled Nanoparticles be applied for maximum benefit?

A: They are widely used in catalysts, drug delivery systems, electronics, coatings, and biomedical devices. Their unique properties-including high surface area, thermal stability, and chemical inertness-provide substantial performance advantages in these fields.

Q: What makes these nanoparticles suitable for high-temperature applications?

A: Silica Shelled Nanoparticles retain structural integrity and performance at operating temperatures up to 1000C, thanks to their high thermal conductivity and excellent resistance to acids and alkalis, making them ideal for demanding environments.

Q: When does the product's shelf life start, and how long does it last?

A: The shelf life of Silica Shelled Nanoparticles is 24 months from the date of manufacture, assuming storage guidelines are followed and the original packaging remains intact.

Q: How do users benefit from the low agglomeration property of these nanoparticles?

A: Low agglomeration means the nanoparticles disperse more readily and evenly in formulations, leading to improved processing, increased functional efficiency, and more predictable performance in applications such as drug delivery and coatings.

Q: What safety precautions should be observed when handling this product?

A: Although non-toxic, avoid inhalation of dust and use standard personal protective equipment, such as gloves and safety goggles, during handling to maintain good laboratory and industrial hygiene.

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