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Titanium Dioxide-Alumina-Simethicone-Silica
| Cat: | DB-UF-026 |
| CAS No.: | 13463-67-7; 1344-28-1; 8050-81-5; 7631-86-9 |
| Description: | Titanium Dioxide-Alumina-Simethicone-Silica is a nanoscale Titanium Dioxide (nm-TiO2) treated with a layered mesh architecture coating on the surface of Titanium Dioxide particles using Alumina-Simethicone-Silica. This treatment effectively inhibits hydroxyl free radicals on the surface of Titanium Dioxide particles, enabling the material to achieve superior affinity and compatibility in oily systems, and provides efficient shielding against UV-A/UV-B. |
| INCI Name: | Titanium Dioxide; Alumina; Simethicone; Silica |
| Application: | Sunscreen, Make up, Daily care |
| Content: | 78-83% |
| Package: | 12.5 kg net per fiber carton |
| Appearance: | White powder solid |
| Particle Size: | 20nm max |
| Solubility: | Amphiphilic |
| Function: | UVA+B filter |
| Shelf Life: | 2 years |
| Storage: | Keep container tightly closed and in a cool place. Keep away from heat. |
| Dosage: | 2-15% |
| Feature: | Titanium Dioxide-Alumina-Simethicone-Silica is a nanoscale Titanium Dioxide (nm-TiO2) treated with a layered mesh architecture coating on the surface of Titanium Dioxide particles using Alumina-Simethicone-Silica. This treatment effectively inhibits hydroxyl free radicals on the surface of Titanium Dioxide particles, enabling the material to achieve superior affinity and compatibility in oily systems, and provides efficient shielding against UV-A/UV-B. (1) Daily Care Protection against harmful UVB radiation Protection against UVA radiation which has been shown to increase premature skin-aging, including wrinkles and loss of elasticity Allows transparent and elegant daily care formulations (2) Color Cosmetics Protection against broad-spectrum UV radiation without compromising cosmetic elegance Provides excellent transparency, and thus does not effect the color shade (3) SPF Booster (all applications) Small amount of T is sufficient to boost the overall efficacy of sun protection products T increases the optical path length and thus enhances efficiency of organic absorbers – the total percentage of sunscreen can be reduced |