Titanium Oxide Anatase Nanowires

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Product Details:

Smell Odorless
Structural Formula O=Ti=O (Anatase crystal structure)
HS Code 28230010
Refractive Rate 2.488 at 550 nm (Anatase)
Purity >99%
Molecular Formula TiO2
Shape Nanowire
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Titanium Oxide Anatase Nanowires Product Specifications

Classification Inorganic Chemical, Metal Oxide Nanomaterial
Molecular Formula TiO2
Shape Nanowire
CAS No 13463-67-7
Usage Industrial, Research, Catalysis, Energy Storage
EINECS No 215-280-1
Application Photocatalysis, solar cells, gas sensors, lithium-ion batteries, environmental purification
Structural Formula O=Ti=O (Anatase crystal structure)
HS Code 28230010
Refractive Rate 2.488 at 550 nm (Anatase)
Purity >99%
Smell Odorless
Density 3.9 Gram per cubic centimeter(g/cm3)
Chemical Name Titanium(IV) Oxide
Type Nanowires
Main Material Titanium Dioxide (TiO2) - Anatase phase
Form Solid, powder or mat
Standard ISO 9001 certified
Poisonous Yes
Melting Point 1843C
Taste Odorless, tasteless
Storage Store in a cool, dry place
Solubility Insoluble in water, soluble in acids and alkalis
Molecular Weight 79.87 g/mol
Boiling point Decomposes before boiling
Other Names Titania, Anatase Nanowires, TiO2 Nanowires
Ph Level Neutral
Grade Analytical grade, Nanomaterial grade

Titanium Oxide Anatase Nanowires Trade Information

Main Export Market(s) Australia, South America, Eastern Europe, Western Europe, Middle East, Africa, Asia, Central America, North America
Main Domestic Market All India

Product Description

Product	Titanium Oxide Anatase Nanowires
Formula	TiO2
CAS Number	13463-67-7
Stock No.	NCZNW101-19
Crystal System	Tetragonal
Formula Mass	79.88 g/mol
Diameter	100 nm, 10 nm (Customizable)
Length	10 m(Customizable)
Form	Nanowires Powder/Dispersion
MP	>350^oC
Density	4.26 g/mL at 25^oC

Exceptional Properties and Structure

These nanowires possess a uniform morphology and a high degree of purity (>99%), offering remarkable surface reactivity owing to their large specific surface area. The anatase-phase structure enhances photocatalytic activity while ensuring environmental safety and non-toxicity.

Versatile Industrial and Research Applications

Titanium Oxide Anatase Nanowires are extensively used in photocatalysis, energy storage, solar cells, and environmental remediation. Their excellent chemical stability and enhanced lithium-ion intercalation set a new standard for application versatility in industrial and research settings.

Reliable Packaging, Handling, and Storage

The nanowires are available in various packaging sizes1 g, 10 g, and 100 g HDPE bottles, or as per customized requirements. For longevity, store the powder in a cool, dry, and sealed container; shelf life extends up to 2 years under appropriate conditions.

FAQs of Titanium Oxide Anatase Nanowires:

Q: What are the primary applications of Titanium Oxide Anatase Nanowires?

A: These nanowires are mainly used in photocatalysis, solar cells, gas sensors, lithium-ion batteries, and environmental purification due to their high reactivity, large surface area, and excellent electrochemical properties.

Q: How should the nanowires be stored for maximum shelf life?

A: They should be kept in a cool, dry place and in a sealed container to prevent degradation. Under these conditions, the nanowires maintain their quality for up to 2 years.

Q: What are the benefits of the anatase crystal phase in these nanowires?

A: The anatase phase offers a wider band gap energy (~3.2 eV), high photocatalytic efficiency, and is preferred for applications requiring environmental remediation and energy conversion.

Q: In what form and packaging are the nanowires supplied?

A: Titanium Oxide Anatase Nanowires are supplied as a white to off-white powder and packaged in HDPE bottles available in 1 g, 10 g, or 100 g quantities. Customized packaging can also be provided on request.

Q: Are these nanowires environmentally safe for research and industrial use?

A: Yes, these nanowires are non-toxic and environmentally friendly, making them suitable for sensitive applications without harmful effects on users or the environment.

Q: What is the typical process used to manufacture these nanowires?

A: Hydrothermal or solvothermal synthesis methods are employed to produce uniform nanowires with high purity and controlled morphology.

Q: How well do these nanowires disperse in solvents for experimental applications?

A: The nanowires can be dispersed in organic solvents when used with an appropriate surfactant, although they are insoluble in water but soluble in acids and alkalis.

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