14027

Oxyde de titane(IV)

puriss., meets analytical specification of Ph. Eur., BP, USP, 99-100.5%

• Synonyme(s) : Blanc de titane, Dioxyde de titane
• Formule linéaire : TiO₂
• Numéro CAS: 13463-67-7
• Poids moléculaire : 79.87
• Numéro CE : 236-675-5
• Numéro MDL: MFCD00011269
• Code UNSPSC : 12352302
• ID de substance PubChem : 329750391
• Nomenclature NACRES : NA.21

Propriétés

• Qualité: puriss.; meets analytical specification of Ph. Eur., BP, USP
• Pureté: 98.0-100.5%; 99-100.5%; 99.0-100.5% (calc. on dry substance)
• Forme: powder
• Impuretés: acidity or alkalinity, complies; residual solvents, complies; ≤0.002% heavy metals (as Pb); ≤0.25% water-soluble matter; ≤0.5% in acid (HCl 0,5 mol/l) sol. matter; ≤0.5% water-soluble matter (hot)
• Perte: ≤0.5% loss on drying, 105 °C, 3h; ≤0.5% loss on ignition, 800 °C
• Pf: >350 °C (lit.)
• Densité: 4.26 g/mL at 25 °C (lit.)
• Traces de cations: As: ≤1 mg/kg; Ba:, in accordance; Fe: ≤50 mg/kg; Pb: ≤20 mg/kg; Sb: ≤50 mg/kg
• Adéquation: complies for appearance of solution
• Chaîne SMILES: O=[Ti]=O
• InChI: 1S/2O.Ti
• Clé InChI: GWEVSGVZZGPLCZ-UHFFFAOYSA-N

Description

Description générale

Titanium dioxide (TiO₂, titania) is one of the most important materials having various important applications, such as water and air purification, self-cleaning materials and photovoltaic cells. TiO₂ is an n-type semiconductor having a wide band gap (3.2eV for anatase and 3.0eV for rutile). Deposition of thin films of TiO₂ doped with Mn on F-doped SnO2-coated glass by spin coating has been described. Deposition of thin films of titanium dioxide (TiO₂) on various substrates by a simple sol-gel dip coating technique has been proposed. It has various photocatalytic applications where it can be used in two forms, i.e as highly dispersed fine particles on porous support materials and as suspended fluids in liquid medium.
Titanium(IV) oxide is a white colored compound, which can be used as a coloring pigment in paints and a main ingredient of cosmetics and toothpaste. It can be prepared via reaction of titanium(IV) chloride with oxygen gas. It can also find applications in photovoltaics, photocatalysis and gas sensors.

Application

• Structure, properties, production and photocatalytic processes of titanium (IV) oxide.: This study discusses the structure, properties, and production methods of titanium(IV) oxide, highlighting its photocatalytic processes which are essential in environmental applications such as pollutant degradation (Byts et al., 2023).


• Photocatalytic Activity of Radial Rutile Titanium(IV) Oxide Microspheres for Aerobic Oxidation of Organics.: This research investigates the photocatalytic performance of radial rutile TiO₂ microspheres, modified with iron oxide clusters, in the aerobic oxidation of organic compounds, demonstrating their potential in environmental cleanup (Kojima et al., 2022).


• Photocatalytic degradation of textile dye with titanium (IV) doped tungsten oxide nanoparticles.: This study focuses on the photocatalytic degradation of textile dyes using Ti(IV)-doped tungsten oxide nanoparticles under visible light, highlighting their potential in water purification due to enhanced photocatalytic activity (Ranjin et al., 2024).


• Solubility and Surface Thermodynamics of Conducting Polymers by Inverse Gas Chromatography, IV: Polypyrrole/Titanium Oxide.: This paper examines the solubility and surface thermodynamics of polypyrrole/titanium oxide composites using inverse gas chromatography, providing insights into their application in electronic materials (Ballard & Al-Saigh, 2020).

Informations sur la sécurité

• Code de la classe de stockage: 11 - Combustible Solids
• Classe de danger pour l'eau (WGK): nwg
• Point d'éclair (°F): Not applicable
• Point d'éclair (°C): Not applicable