Combined experimental and theoretical investigation on the magnetic properties derived from the coordination of 6-methyl-2-oxonicotinate to 3d-metal ions

Five new compounds are reported herein starting from 2-hydroxy-6-methylnicotinic acid (H2h6mnic) and first-row transition metal ions, although H2h6mnic shows a prototropy in solution to lead to the 6- methyl-2-oxonicotinate (6m2onic) ligand that is the molecule eventually present in the compounds. The structural and chemical characterization reveals the following chemical formulae: {[MnNa(mu(3)- 6m2onic)(2) (mu-6m2onic)(MeOH)]center dot H2O center dot MeOH}(n) (1mn), {[M2Na2(mu(3)-6m2onic)(2)(mu-6m2onic)(2)(mu-H2O)(H2O)(6)] (NO3)(2)}(n) [M-parallel to = Co (2(co)) and Ni (3(Ni))], 2[(Cu-2 (6m2onic) (3)(mu-6m2onic)(MeOH)]center dot[Cu-2(6m2onic)(2) (mu-p6m2onic)(2) center dot 2[Cu(6m2onic)(2) (MeOH)]center dot 32H(2)O (4(Cu)) and {[Cu(mu-6m2onic)2]center dot 6H(2)O}(n) (5(Cu)) (where 6m2onic 6-methyl-2-oxonicotinate). An unusual structural diversity is observed for the compounds, ranging from isolated complexes (in 4(Cu)), 1D arrays (in 1M(n) and 5(Cu)) and 3D frameworks (in 2(Co) and 3(Ni)). Magnetic properties have been studied for all compounds. Analysis of the magnetic dc susceptibility and magnetization data for 4(Cu) and 5(Cu) suggests the occurrence of ferromagnetic exchange, which is well explained by broken-symmetry and CASSCF calculations. The sizeable easy-plane magnetic anisotropy present in compound 2(Co) allows for a field-induced magnet behaviour with an experimental effective energy barrier of 16.2 cm(-1) , although the slow relaxation seems to be best described through Raman and direct processes in agreement with the results of ab initio calculations.

Automated summary

This article reports on five new compounds derived from H2h6mnic and first-row transition metal ions, which exhibit diverse structures and magnetic properties. The results also provide explanations for some magnetic behaviors through calculations.