Titanium Dioxide Nanowires Type A (Analytical Grade)

Product Overview
Titanium dioxide nanowires Type A (analytical grade) are a form of titanium dioxide with a nanowire structure. The unique nanowire morphology provides a large surface area and abundant porosity, allowing efficient light absorption and electron-hole pair generation, which drives redox reactions. This material is widely used in photocatalytic reactions, energy conversion, and environmental remediation. The product is synthesized using a hydrothermal method, followed by high-temperature calcination and purification to ensure high purity and uniformity, providing excellent photocatalytic performance and chemical stability.

Key Features

• High Surface Area and Porosity:The nanowire structure offers rich porosity, increasing the surface area and improving reaction efficiency.
• Excellent Photocatalytic Properties:The material efficiently absorbs light and generates electron-hole pairs, making it ideal for photocatalytic reactions.
• Good Chemical Stability:High-temperature calcination and purification processes ensure the product's stability in various environments.
• Versatile Applications:Suitable for use in multiple fields, including energy conversion, environmental remediation, and sensor applications.

Applications

• Nanocomposite Fillers:Used in nanowire polymer composites, metal composites, and ceramic composites.
• Adhesives and Coatings:Can be added to adhesives and coatings to enhance material properties.
• High-Performance Films:Used in the preparation of high-performance films.
• Nanoporous Ceramic Membranes:Ideal for chemical and water filtration, especially in strong acid and alkali environments.
• High-Temperature Nonwoven Fabrics:Used for the production of nonwoven fabrics in high-temperature environments.
• White Pigments:Employed as a white pigment in plastics, coatings, rubber, cosmetics, synthetic fibers, paper, and ceramics.
• Surface Coatings:Used as an additive in various surface coatings.
• Catalyst Supports:Can act as a support material for catalysts.
• Photocatalysts:Used in photocatalytic reactions with broad application prospects.
• Dye-Sensitized Solar Cells:Used in dye-sensitized, polymer-based, and quantum dot (QD) solar cells.
• Water Splitting for Hydrogen Production:Utilized in water splitting reactions for hydrogen production.
• Chemical Sensors:Particularly suited for high-temperature gas sensor applications.
• Lithium Battery Anodes:Serves as an anode material for lithium-ion batteries.
• Fuel Cells:Used as catalysts and supports in fuel cells.