| 1 |
Silsesquioxane chemistry : Synthesis and structure of the novel anionic aluminosilsesquioxane [HNEt3][{Cy7Si7O9(OSiMe3)O-2)}(2)Al]center dot C6H14 (Cy = c-C6H11)
Edelmann FT, Gun'ko YK, Giessmann S, Olbrich F, Jacob K
Inorganic Chemistry, 38(2), 210, 1999 |
| 2 |
Facile and Remarkably Selective Substitution-Reactions Involving Framework Silicon Atoms in Silsesquioxane Frameworks
Feher FJ, Phillips SH, Ziller JW
Journal of the American Chemical Society, 119(14), 3397, 1997 |
| 3 |
A One-Step Method for the Synthesis of a Vinyl-Containing Silsesquioxane and Other Organolithic Macromolecular Precursors
Yuchs SE, Carrado KA
Inorganic Chemistry, 35(1), 261, 1996 |
| 4 |
Cubic Group-13 Heterosiloxanes with 4 Co-3(Co)(9)C Cluster Units as Substituents - Novel Soluble Model Compounds for Synthetic Zeolites Showing Catalytic Activity in Hydroformylation Reactions
Ritter U, Winkhofer N, Murugavel R, Voigt A, Stalke D, Roesky HW
Journal of the American Chemical Society, 118(36), 8580, 1996 |
| 5 |
Syntheses and Molecular-Structures of the Dialkylaluminum and Dialkylgallium Stannoxides (R(2)M(Mu-Osnph(3)))(2)
Ghazi SU, Kumar R, Heeg MJ, Oliver JP
Inorganic Chemistry, 33(3), 411, 1994 |
| 6 |
Structural Distortions in Si8O12 Fragments and D4R Units - A Comparison Between Silasesquioxane Molecules and Lta Zeolites
Bieniok AM, Burgi HB
Journal of Physical Chemistry, 98(42), 10735, 1994 |
