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-Pri), OC6H3(2,6-(Pri))2, OC6H4(2-But), OC6H3(2,6-(But))2

Abstract

A series of sterically varied aryl alcohols H−OAr [OAr = OC₆H₅ (OPh), OC₆H₄(2-Me) (oMP), OC₆H₃(2,6-(Me))₂ (DMP), OC₆H₄(2-Prⁱ) (oPP), OC₆H₃(2,6-(Prⁱ))₂ (DIP), OC₆H₄(2-Bu^t) (oBP), OC₆H₃(2,6-(Bu^t))₂ (DBP); Me = CH_3, Prⁱ = 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)], [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 [Li₂(DIP)₂(py)₃] (12c). Multinuclear (^6,7Li and ¹³C) 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.