Coordination polymers of various architectures built with mixed imidazole/benzimidazole and carboxylate donor ligands and different metal ions: syntheses, structural features and magnetic properties??

New Journal of Chemistry Pub Date: 2010-09-27 DOI: 10.1039/C0NJ00302F

Abstract

Ten coordination polymers {[Cd(L1)2]}n (1), {[Cu(L1)2]}n (2), {[Cd2(L1)2(HCOO)2(H2O)]}n (3), {[Cd2(L1)4]·3H2O}n (4), {[Cd(L1)(CH3COO)]}n (5), {[Cd(L1)2(C5H5N)]·2.5H2O}n (6), {[Zn(L2)2]}n (7), {[Cd2(L2)4]·H2O}n (8), {[Cd3(L2)6(H2O)]·2EtOH·H2O}n (9) and {[Cd(L3)2]·2DMF·4H2O}n (10), where HL1 = 4-imidazole-1-yl-benzoic acid, HL2 = 3-imidazole-1-yl-benzoic acid and HL3 = 4-benzmidazole-1-yl-benzoic acid, have been synthesized under different experimental conditions. Their structures are determined by single-crystal X-ray diffraction analyses and further characterized by IR spectra, thermogravimetric (TG) and elemental analyses. The structure of 1 is a 2D → 2D (2D = two dimensional) interpenetrating network with (4,4) grid topology while 2 has an interesting Kagome structure. Compounds 4 and 6 crystallize in 4- and 3-fold interpenetrating diamondoid frameworks respectively. Compound 7 is a layered non-interpenetrating (4,4) grid network whereas 8 has an unprecedented self-penetrating structure with 2D framework. Compound 9 is a self-penetrating 3D structure while 10 crystallizes in a non-interpenetrating (4,4) square-grid with one-dimensional (1D) channels. From these results, it is demonstrated that the structures of the coordination polymers are strongly dependent on the geometry of L1, L2 and reaction conditions. Variable temperature magnetic susceptibility study of 2 has also been performed.

Graphical abstract: Coordination polymers of various architectures built with mixed imidazole/benzimidazole and carboxylate donor ligands and different metal ions: syntheses, structural features and magnetic properties
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