Eyeshields, Gloves, type N95 (US), type P1 (EN143) respirator filter
Titanium Oxide( TiO2 ) Nanopowder General Description
This material is a fine white powder composed of titanium oxide particles ranging from 10nm to 30nm in diameter. Composed of high-surface-area nanocrystals
or nanodots, this material exhibits unique magnetic and antibacterial properties that make it ideal for usage across a broad range of domains. Other names for
this material include titanium dioxide, dioxotitanium, rutile, or flamenco nanoparticles.
Titanium Oxide( TiO2 ) Nanopowder Applications
• UV-resistance. One of the primary uses of this material is for its inherent UV-resistance, making it a crucial ingredient in various coatings and materials and of value as a raw material.
• Self-cleaning materials. Another key usage of titanium oxide nanoparticles is in the production of self-cleaning materials, such as self-cleaning glasses and ceramics.
• Glass. Certain specialty glasses use this material in the manufacturing process as an ingredient or catalyst.
• Inks. The optical properties of titanium oxide nanopowder makes it of value in the production of certain printing inks.
• Cosmetics. Many cosmetics utilize titanium oxide nanoparticles for its unique antibacterial and optical properties. This includes moisturizers,
beauty creams, whitening creams, vanishing creams, sunscreens, powdered make-up, skin rinses, and many other products.
• Paper. Titanium oxide nanoparticles are specifically known for improving the opacity and impressionability of paper products.
• Specialty coatings. Like many nanopowders, titanium oxide nanopowder is used in a host of specialized coatings, offering some degree of UV shielding, magnetic properties, etc.
• Organic sterilization. Various organic substances degrade when exposed to titanium oxide nanoparticles, making it useful in certain decontamination efforts and in the treatment of sewage and organic chemical waste products.
• Air filtration. Another environmental use of titanium oxide nanopowder is in the purification of air.
• Antiseptic and antibacterial compounds. Due to its photo-catalytic properties, titanium oxide nanoparticles can serve as a key ingredient in various antibacterial and antiseptic compounds.
• Production of alloys. Titanium oxide nanoparticles are a key raw material and catalyst in various metallurgical processes. Alloys produced using this material include carbide alloys and ferrotitanium alloys.
• Fibers. Certain chemical fibers are produced with titanium oxide nanoparticles, as are food packing materials and other materials where the antibacterial properties of titanium oxide would be of value.
