A family of mono-, di-, and tetranuclear Dy III complexes bearing the ligand 2,6-diacetylpyridine bis(picolinoylhydrazone) and exhibiting slow relaxation of magnetization.

The systematic investigation of the general reaction scheme Dy III /X - /LH 2 , where X - = Cl - , CF 3 SO 3 - , ClO 4 - , MeCO 2 - , and LH 2 is the pocket-type ligand 2,6-diacetylpyridine bis(picolinoylhydrazone), resulting from the condensation of 2,6-diacetylpyridine with picolinic acid hydrazide, has led to a new family of mono-, di-, and tetranuclear metal complexes of the formulae [DyCl 2 (LH 2 )(MeOH)]Cl (1), [Dy 2 (O 3 SCF 3 ) 2 (LH) 2 (MeOH) 1.42 (H 2 O) 0.58 ](O 3 SCF 3 ) 2 (2), [Dy 2 (LH) 2 (MeOH) 2 (H 2 O) 2 ](ClO 4 ) 4 (3), and [Dy 4 (OH) 2 (O 2 CMe) 6 (L) 2 ] (4), respectively. The organic chelate undergoes metal-assisted amide-iminol tautomerism and adopts the neutral zwitterionic, and single- and double-deprotonated forms, respectively, upon coordination with the metal center(s). Interestingly, the different forms of the ligand LH 2 /LH - /L 2- act independently as penta-, hexa-, and heptadentate, either as single-chelating or chelating and bridging, thus yielding new Dy III compounds of various nuclearities and different magnetic properties. All complexes 1-4 exhibit frequency-dependent, out-of-phase ( χ '' M ) tails of signals in zero external dc field, characteristic of the onset of quantum tunnelling of magnetization. Attempts to suppress the tunnelling through the application of an external dc field were mostly successful in the case of complex 1, where entirely visible peaks of χ '' M have been observed and rendered possible the fit of the data to the Arrhenius equation, thus yielding the parameters: U eff = 10.9(1) K and τ 0 = 1.9(1) × 10 -6 s, where U eff is the effective energy barrier for the magnetization reversal and τ 0 is the pre-exponential factor. The combined results demonstrate the ability of pyridyl-bis(acylhydrazone) ligands to yield chemically, structurally, and magnetically interesting compounds through their rich interconversion between various amide-iminol resonance forms.