Efficient synthetic route to anhydrous mononuclear tris(8-quinolinolato)lanthanoid complexes for organic light-emitting devices

A new lanthanoid 8-quinilinolates type structure was found for lanthanum complex La₃(q^Me)₉(H)(NO₃) (1) formed in the reaction of La(NO₃)₃ · 6H₂O with 2-methyl-8-hydroxyquinoline (Hq^Me) and aqueous ammonia in methanol. The molecule of 1 contains three La atoms connected by six bridging quinolinolate ligands, two terminated η²-coordinated q^Me ligands, one terminated η¹-coordinated q^Me ligand and one terminated NO₃ group. The geometry and ¹H NMR spectrum of the complex suggest that it is bearing −1 charge balanced by proton, which was localized objectively. The arrangement of the compound in crystalline state and in pyridine solution is discussed. Syntheses of water- and acid residual-free mononuclear lanthanoid quinolinolates La(q^Me)₃(py)₂ (2) and Lnq₃(py)₂, (Ln = Y (3), La (4), Sm (5), Eu (6), Tb (7), Er (8), Tm (9); q = 8-quinolinolate, py = pyridine) by the reaction of appropriate amido complexes LnN(SMe₃)₂]₃ with 3 equiv. of 2-methyl-8-hydroxyquinoline or 8-hydroxyquinoline in pyridine solution is also described. The complex Laq₃(Ph₃PO)₂ (10) was prepared by treatment of 4 with triphenylphosphine oxide in pyridine solution. Lanthanum 2 complex revealed photoluminescence intensity ca. 3 × 10³ times higher than that of the compound 1 prepared by the traditional way in water-alcohol medium. These data give a ground to consider the Lnq₃(py)₂ complexes as promising material for design of light-emitting devices.