A functional model for lanthanide doped silicate materials: synthesis of an apically substituted samarium silsesquioxane complex

Steric protection of a trisilanol silsesquioxane (also referred to as a sil asesquioxane) by one TBDMS group (SiMe2But) generated a new siloxanolate li gand, (c-C5H9)(7)Si7O9(OH)(2)(OTBDMS) 1, that allows only restricted access to a co-ordinated metal. Lithiation afforded the stable complex (c-C5H9)(7 )Si7O9(OLi)(2)(OTBDMS), which has allowed the generation of a samarium addu ct [Sm(OC6H3Bu2t-2,6){(c-C5H9)(7)Si7O9(O)(OLi)(OTBDMS)}(2)]. A structural s tudy of this samarium adduct revealed two unusual features: an absence of s tabilising M-O interactions with the siloxane core, and retention of one ap ical aryloxide group at the trivalent metal, through which the chemistry of a silica-functionalised Ln(3+) ion might be modelled. X-Ray crystallograph y also revealed the dimeric hydrogen bonded structure of the disilanol liga nds. The disilanol ligand 1 may also readily be converted into a dithallium salt, providing a potential precursor for further f-element derivatives of this disilanolate moiety.