CAS Number:
13463-67-7
Name:
Titanium dioxide
Formula:
TiO₂
Molecular Structure:
Synonyms:
Titanium(IV) oxide;Titania;Rutile;Anatase;Brookite;1385RN 59;1700 White;A 200 (pigment);A 330 (pigment);Bayertitan R-FD 1;Bayertitan R-FK 21;C.I. Pigment White 6;
Molecular Weight:
79.90
EINECS:
236-675-5
Density:
4.23 g/cm³
Melting Point:
1843 °C
Boiling Point:
2972 °C
Solubility:
insoluble in water
Appearance:
White solid
Hazard Symbols:
Xn
Risk Codes:
20/21/22-36/37/38
Safety:
26-36
Deleted CAS:
98084-96-9|100292-32-8|101239-53-6

Home > Titanium dioxide(CAS No. 13463-67-7)

Titanium dioxide CAS No. 13463-67-7 )

Photoelectrochemical processes on titanium dioxide electrodes modified with silver particles: Photoelectrochemical processes on titanium dioxide electrodes modified with silver particles. Strel'tsov, E. A.; Sviridov, V. V.; Kulak, A. I.; Pakhomov, V. P. (Beloruss. Gos. Univ., Minsk, USSR). Elektrokhimiya, 20(2), 208-11 (Russian) 1984.In this article, certain chemicals are used. Some of their cas registry numbers are 7782-44-7 and 7440-22-4 CODEN: ELKKAX. ISSN: 0424-8570. DOCUMENT TYPE: Journal CA Section: 72 (Electrochemistry) Section cross-reference(s): 74 The effect was examn. of modifying the surface of TiO2 [13463-67-7] electrodes with finely divided particles of Ag on the effectiveness of oxidn. (photooxidn.) of H2O and the redn. of O2, as well as on the nature of the change in the potential of TiO2 during its exposure to UV light and on the relaxation of the photopotential after turning off the light. The object of the study was a thin film of TiO2 obtained by hydrolytic deposition from a soln. of polybutyl titanate on a Ti substrate. The film was modified by depositing (on its surface) Ag particles in the amt. of 1013-1017 atoms/cm2 by photoredn. of Ag+ by UV light on Ti contacted by a soln. of 0.001N Ag2SO4 + 0.5N K2SO4. .

Using titanium oxide for cobalt removal from high-temperature water: Using titanium oxide for cobalt removal from high-temperature water. Kawamura, Fumio; Funabashi, Kiyomi; Kikuchi, Makoto; Ohsumi, Katsumi (Energy Res. Lab., Hitachi Ltd. 316, Japan). Nucl. Technol., 65(2), 332-9 (English) 1984. CODEN: NUTYBB. ISSN: 0029-5450. DOCUMENT TYPE: Journal CA Section: 71 (Nuclear Technology) Improvement of the reactor water cleanup system is one of the most effective methods for radiation redn. in BWR plants. This necessitates development of a heat-resistant adsorbent for direct use to remove Co under reactor conditions (285°, 70 kg/cm2). A suitable adsorbent was developed by impregnating granular sponge Ti with TiO2 [13463-67-7]. Adsorption of Co2+ on TiO2 was evaluated as a function of temp. Corrosion products, such as Co2+, Ni2+, and Cu2+, were preferentially adsorbed at high temps. Chem. adsorption occurred with the formation of insol. 14701-22-5 and 22541-53-3 which are cas registry numbers of substances are two of reagents here. Co metatitanate on the TiO2 surface. In-plant tests, carried out to evaluate the performance using actual reactor water, verified the applicability of the new adsorbent to the high-temp. reactor water cleanup system. .