화학공학소재연구정보센터
Inorganic Chemistry, Vol.39, No.22, 5133-5146, 2000
Structural diversity in solvated lithium aryloxides. Syntheses, characterization, and structures of [Li(OAr)(THF)(x)](n) and [Li(OAr)(py)(x)](2) complexes where OAr=OC6H5, OC6H4(2-Me), OC6H3(2,6-(Me))(2), OC6H4(2-Pr-i), OC6H3(2,6-(Pr-i))(2), OC6H4(2-Bu-t), OC6H3(2,6-(Bu-t))(2)
A series of sterically varied aryl alcohols H-OAr [OAr = OC6H5 (OPh), OC6H4(2-Me) (oMP), OC6H3(2,6-(Me))(2) (DMP), OC6H4(2-Pr-i) (oPP), OC6H3(2,6-(Pr-i))(2) (DIP), OC6H4(2-Bu-t) (oBP), OC6H3(2,6-(Bu-t))(2) (DBP); Me = CH3, Pr-i = CHMe2, and Bu-t = CMe3] were reacted with LiN(SiMe3)(2) in a Lewis basic solvent [tetrahydrofuran (THF) or pyridine (py)] to generate the appropriate "Li(OAr)(solv)(x)". In the presence of THF, the OPh derivative was previously identified as the hexagonal prismatic complex [Li(OPh)(THF)](6); however, the structure isolated from the above route proved to be the tetranuclear species [Li(OPh)(THF)](4) (1). The other "Li(OAr)(THF)(x)" products isolated were characterized by single-crystal X-ray diffraction as [Li(OAr)(THF)](4) [OAr = oMP (2), DMP (3), oPP (4)1, [Li(DIP)(THF)](3) (5), [Li(oBP)(THF)(2)](2), (6), and [Li(DBP)(THF)](2), (7). The tetranuclear species (1-4) consist of symmetric cubes of alternating tetrahedral Li and pyramidal O atoms, with terminal THF solvent molecules bound to each metal center. The trinuclear species 5 consists of a six-membered ring of alternating trigonal planar Li and bridging O atoms, with one THF solvent molecule bound to each metal center. Compound 6 possesses two Li atoms that adopt tetrahedral geometries involving two bridging oBP and two terminal THF ligands. The structure of 7 was identical to the previously reported [Li(DBP)(THF)](2) species, but different unit cell parameters were observed. Compound 7 varies from 6 in that only one solvent molecule is bound to each Li metal center of 7 because of the steric bulk of the DBP ligand. In contrast to the structurally diverse THF adducts, when py was used as the solvent, the appropriate "Li(OAr)(py)(x)" complexes were isolated as [Li(OAr)(py)(2)](2) (OAr = OPh (8), oMP (9), DMP (10), oPP (11), DIP (12), oBP (13)) and [Li-(DBP)(py)](2) (14). Compounds 8-13 adopt a dinuclear, edge-shared tetrahedral complex. For 14, because of the steric crowding of the DBP ligand, only one py is coordinated, yielding a dinuclear fused trigonal planar arrangement. Two additional structure types were also characterized for the DIP ligand: [Li(DIP)(H-DIP)(py)](2) (12b) and [Li-2(DIP)(2)(py)(3)] (12c). Multinuclear (Li-6,Li-7 and C-13) solid-state MAS NMR spectroscopic studies indicate that the bulk powder possesses several Li environments for "transitional ligands" of the THF complexes; however, the py adducts possess only one Li environment, which is consistent with the solid-state structures. Solution NMR studies indicate that "transitional" compounds of the THF precursors display multiple species in solution whereas the py adducts display only one lithium environment.