Silicalite Explained

Silicalite is an inorganic compound with the formula SiO2. It is one of several forms (polymorphs) of silicon dioxide. It is a white solid. It consists of tetrahedral silicon centers and two-coordinate oxides. It is prepared by hydrothermal reaction using tetrapropylammonium hydroxide followed by calcining to remove residual ammonium salts. The compound is notable in being ca. 33% porous. It is useful because the material contains (SiO)10 rings that allow sorption of hydrophobic molecules of diameter 0.6 nm.[1]

A commercially important modification of silicalite is titanium silicalite. With the formula Si1−xTixO2, it consists of silicalite with Ti doped into some Si sites. Unlike conventional polymorphs of titanium dioxide, the Ti centers in titanium silicalite have tetrahedral coordination geometry. The material is a useful catalyst for the reaction of hydrogen peroxide with propylene to give propylene oxide.[2]

References

  1. Silicalite, a New Hydrophobic Crystalline Silica Molecular Sieve. E. M. Flanigen . J. M. Bennett . R. W. Grose . J. P. Cohen . R. L. Patton . R. M. Kirchner . J. V. Smith . Nature. 271. 512–516. 1978. 5645. 10.1038/271512a0. 1978Natur.271..512F. 4266556.
  2. Structural and Physicochemical Features of Titanium Silicalites. Georgi N. Vayssilov. Catalysis Reviews. 39. 209–251. 1997. 3. 10.1080/01614949709353777.