Publication Type Journal Article
Title Magneto-Structural Correlation Studies and Theoretical Calculations of a Unique Family of Single End-to-End Azide-Bridged Ni-4(II) Cyclic Clusters
Authors Sujit Sasmal Susanta Hazra Parimal Kundu Samit Majumder Nuria Aliaga-Alcalde Eliseo Ruiz Sasankasekhar Mohanta
Groups
Journal INORGANIC CHEMISTRY
Year 2010
Month October
Volume 49
Number 20
Pages 9517-9526
Abstract The work in this paper aims to portray a complete structural, magnetic, and theoretical description of two original end-to-end (EE) mu(1,3)-azide-bridged, cyclic tetranuclear Ni(II)clusters, [\Ni-II(L-1)(mu(1,3)-N-3)(H2O)\(4)] (1) and [\Ni-II(L-2)(mu(1,3)-N-3)(H2O)\(4)] (2), where the ligands used to achieve these species, HL1 and HL2, are the tridentate Schiff base ligands obtained from [1 + 1] condensations of salicylaldehyde with 1-(2-aminoethyl)-piperidine and 4-(2-aminoethyl)-morpholine, respectively. The title compounds, 1 and 2, crystallize in a monoclinic P2(1) space group. Overall, both species can be described in a similar way; where all Ni-II centers within each molecule are hexacoordinated and bound to [L-1](-) or [L-2](-) through the phenoxo oxygen, imine nitrogen, and piperidine/morpholine nitrogen atoms of the corresponding ligand. The remaining coordination sites are satisfied by one molecule of H2O and two nitrogen atoms from N-3(-) anions. The latest act as bridges between Ni-II ions, and eventually, only four azido groups are linked to the same number of Ni-II centers resulting in the formation of cyclic Ni-4(II) systems. Interestingly, compounds 1 and 2 are the two sole examples of tetranuclear clusters generated exclusively by EE azide-bridging ligands to date. All the N(azide)-Ni-N(azide) moieties are almost linear in 1 and 2 indicating trans arrangement of the azido ligand. Variable-temperature (2-300 K) magnetic susceptibilities of 1 and 2 have been measured under magnetic fields of 0.04 T (from 2 to 30 K) and 0.7 T (from 30 to 300 K), and magneto-structural correlations have been performed. Despite the presence of both ferromagnetic and antiferromagnetic interactions in both compounds, significant differences have been observed in their magnetic behaviors directly related to the arrangement of the bridging azido ligands. Hence, compound 1 has an overall moderate antiferromagnetic behavior due to the presence of an exchange pathway with an unprecedented Ni-N center dot center dot center dot N-Ni torsion angle close to 0 degrees, meanwhile complex 2 exhibits a predominant ferromagnetic behavior, with torsion angles between 50 and 90 degrees. Density functional theory calculations have been performed to provide more insight into the magnetic nature of this new family of Ni-II-azido complexes and also to corroborate the fitting of the data.
DOI http://dx.doi.org/10.1021/ic101209m
ISBN
Publisher
Book Title
ISSN 0020-1669
EISSN 1520-510X
Conference Name
Bibtex ID ISI:000282783400052
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