High purity silicon tetrachloride is used in the manufacture of optical fibres.
2.
SiClF 3 can be made by reacting silicon tetrachloride with antimony trifluoride.
3.
It is soluble in nonpolar solvents silicon tetrachloride and carbon tetrachloride . or.
4.
Silicon tetrachloride can also be hydrolysed to fumed silica.
5.
This method involved heating silicon and oxygen by running silicon tetrachloride gas through an oxygen flame.
6.
Porous silicon can be synthesized chemically from silicon tetrachloride, using self-forming salt byproducts as templates for pore formation.
7.
Silicon tetrachloride can react with trifluoro ( trichloromethyl ) silane to yield SiClF 3 and CCl 3 SiCl 3.
8.
This reaction does not inadvertently etch the wafer, and takes place at lower temperatures than deposition from silicon tetrachloride.
9.
In rare occurrences, the silicon dioxide in silica is converted to silicon tetrachloride when the contaminted brine is electrolyzed.
10.
Italian prosecutors closed off the section of the factory where the leak of silicon tetrachloride occurred, allowing all other units to function normally.