First report on N,N′-diisoalkylisonicotinamide 1D coordination network containing linear trinuclear [Co3L4Cl6] units with mixed CoII(Td)–CoII(Oh)–CoII(Td) geometries: structure and magnetic propertiesElectronic supplementary information (ESI) available: Fig. S1. CCDC reference number 768478. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c0dt00245c

Reaction of anhydrous CoCl2with N,N′-diisopropylisonicotinamide (L) has yielded a coordination polymer containing linear trinuclear [Co3L4Cl6] units with a rare, mixed Co(Td)–Co(Oh)–Co(Td) assembly (compound 1). The central CoIIion, of each trinuclear entity, exhibits a distorted octahedral geometry, with two ligand molecules coordinating through their carbonyl oxygen atoms along with two bridging Cl−ions and two pyridine N atoms from the neighboring molecules. Also, in each unit, two outer CoIIions display distorted tetrahedral geometry, coordinating to one ligand molecule through the pyridine N atom and to three Cl−ions (one of them bridged to the central CoIIand the two acting as a terminal ligands). The magnetic properties of this compound were investigated in the temperature range of 2.0 to 300.0 K. Owing to the complexity of the system and the weak interactions among trinuclear aggregates, the magnetic response has been analyzed using a model which considers these units as isolated systems. In addition, magnetic data has been examined in two separated blocks, above and below 50 K, applying programs VPMAG FORTRAN and MAGPACK-fit, respectively. This way, only the most significant effects at each interval of temperature were considered: spin–orbit coupling of the Co(Oh), at high temperatures and zero-field splitting parameters of the Co(Td) at the low. Spin–spin magnetic interaction has been taken into account for the whole range of temperatures. As a result, the analysis of the magnetic data shows that, within every trinuclear unit, the central position matches well with a high-spin CoII(S= 3/2) and also reveals weak ferromagnetic interactions between the Co(Oh) and the two terminal Co(Td) ions (J= +0.34 cm−1). [ABSTRACT FROM AUTHOR]
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