Abstract
Tin silicate species have shown good catalytic activity in various oxidation reactions. In an attempt to mimic surface tin species, several tin containing silsesquioxanes have been synthesized. Incompletely condensed silsesquioxanes (c-C5H9)(7)Si7O9(OH)(3) and (c-C5H9)(7)Si7O9(OSiMe3)(OH)(2) were reacted with common tin-precursors, which afforded several silsesquioxane ligated tin compounds. Divalent stannasilsesquioxanes form dimers of the type [(c-C5H9)(7)Si7O11(OX)Sn](2) (X=H, SiMe3) with three-coordinated tin centers. The three-coordinated tin(II) are hydrolytically unstable whereas the octahedrally surrounded tetravalent stannasilsesquioxanes [(c-C5H9)(7)Si7O11(OX)]Sn(acac)2 (X=H, OSiMe3) are hydrolytically robust. An unprecedented anionic trimeric cluster, {[(c-C5H9)(7)Si7O12Sn]3(mu(2)-OH)3(mu(3)-OH)}-{HNEt3}(+), stabilized by bridging hydroxyl groups was formed when the product formed upon reacting (c-C5H9)(7)Si7O9(OH)(3) with SnCl4 was slowly hydrolyzed. The stannasilsesquioxanes showed no catalytic activity in oxidation reactions.
Original language | English |
---|---|
Pages (from-to) | 2677-2682 |
Number of pages | 6 |
Journal | Dalton Transactions |
Issue number | 17 |
DOIs | |
Publication status | Published - 2004 |
Externally published | Yes |
Keywords
- SILSESQUIOXANE EPOXIDATION CATALYSTS
- ORGANOMETALLIC COMPLEX STRUCTURE
- SPEED EXPERIMENTATION TECHNIQUES
- BAEYER-VILLIGER OXIDATION
- HYDROGEN-PEROXIDE
- MOLECULAR-SIEVES
- SILICA SURFACES
- ACTIVE-SITES
- IR-SPECTRUM
- SN-BETA