Magnesium Oxide Nanowire

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Product Details:

Poisonous Yes
Other Names MgO Nanowire
Taste Odorless
Refractive Rate 1.74
Molecular Formula MgO
Melting Point 2852C
Density 3.58 Gram per cubic centimeter(g/cm3)
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Magnesium Oxide Nanowire Product Specifications

Chemical Name Magnesium Oxide
Boiling point 3600C
HS Code 25199090
Structural Formula Mg-O
Storage Store in tightly sealed container, dry condition
Solubility Insoluble in water; soluble in acids
CAS No 1309-48-4
Classification Oxide Nanomaterial
Molecular Weight 40.30 g/mol
Grade Industrial Grade, Nanomaterial Grade
Application Catalysts, sensor devices, refractory materials, high-temperature insulation
Shape Wire/Nanowire
Form Solid
Purity >99%
Ph Level Neutral to slightly basic
Usage Nanotechnology, electronics, ceramics
Density 3.58 Gram per cubic centimeter(g/cm3)
Smell Odorless
EINECS No 215-171-9
Melting Point 2852C
Standard GB/T 26077-2010 or equivalent
Main Material Magnesium Oxide
Refractive Rate 1.74
Type Nanowire
Molecular Formula MgO
Taste Odorless
Other Names MgO Nanowire
Poisonous Yes

Magnesium Oxide Nanowire Trade Information

Payment Terms Paypal, Telegraphic Transfer (T/T), Western Union, Cash in Advance (CID), Cheque, Cash Advance (CA)
Main Domestic Market All India

Product Description

Product	Magnesium Oxide nanowire
CAS Number	1309-48-4
Stock No.	NCZNW110-19
Chemical Formula	MgO
Molar Mass	40.304g/mol
Density	3.6g/cm3
Melting Point	2,825 C
Boiling Point	3,600 C
Crystal Structure	Halite
Diameter	300 nm (customization available)
Length	100µm (customization available)

Exceptional Structural Attributes

Magnesium Oxide Nanowires feature a uniform particle size distribution, high crystallinity, and a remarkable surface area, which make them highly effective for industrial processes. The nanowires maintain robust stability and integrity even under demanding thermal conditions, ensuring consistent performance for their intended applications such as insulation or catalysis.

Reliable Performance in Harsh Environments

With a melting point of 2852C, and a density of 3.58 g/cm, these nanowires deliver outstanding thermal stability and durability in refractory, high-temperature, or chemically aggressive settings. Their insulating electrical properties further expand their use in sensitive electronic and sensor applications, providing both safety and efficiency.

FAQs of Magnesium Oxide Nanowire:

Q: How should Magnesium Oxide Nanowires be stored for optimal shelf life?

A: These nanowires should be kept in tightly sealed containers, under dry conditions, and stored in a vacuum-sealed plastic bottle as provided. Proper storage maintains their stability and assures up to 24 months of shelf life from the date of manufacture.

Q: What are the main benefits of using Magnesium Oxide Nanowires in industrial applications?

A: Their high surface area, excellent thermal conductivity, and uniform particle size distribution offer enhanced efficiency in catalytic reactions, temperature insulation, and sensor devices. Their robust crystallinity and stability make them well-suited for advanced nanotechnology, ceramics, and high-temperature environments.

Q: When can Magnesium Oxide Nanowires be applied in electronic and sensor devices?

A: Due to their excellent insulating properties and thermal stability, MgO nanowires can be integrated during the design and manufacturing phases of electronic and sensor devices, especially when superior dielectric or refractory performance is required.

Q: What is the process for handling and using Magnesium Oxide Nanowires safely?

A: While these nanowires are non-poisonous and odorless, it is best practice to handle them using gloves and masks in well-ventilated spaces to avoid inhalation of fine particles. Always follow standard laboratory or industrial safety procedures.

Q: Where are Magnesium Oxide Nanowires typically used?

A: They find application in catalysts, electronic components, sensor devices, ceramics, and as insulation material in high-temperature or refractory situations across industries such as nanotechnology and electronics.

Q: How does the uniform particle size distribution benefit end-use?

A: A uniform particle size distribution enhances consistency in performance, enabling predictable behavior in chemical reactions, superior material integration, and reliable end-product quality, especially in catalysts and functional composites.

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