Publication

A ni11 coordination cluster from the use of the di-2-pyridyl ketone/acetate ligand combination: synthetic, structural and magnetic studies

G. Efthymiou, Constantinos
Mylonas-Margaritis, Ioannis
P. Raptopoulou, Catherine
Psycharis, Vassilis
Escuer, Albert
Papatriantafyllopoulou, Constantina
P. Perlepes, Spyros
Citation
G. Efthymiou, Constantinos; Mylonas-Margaritis, Ioannis; P. Raptopoulou, Catherine; Psycharis, Vassilis; Escuer, Albert; Papatriantafyllopoulou, Constantina; P. Perlepes, Spyros (2016). A ni11 coordination cluster from the use of the di-2-pyridyl ketone/acetate ligand combination: synthetic, structural and magnetic studies. Magnetochemistry 2 (3),
Abstract
The combined use of di-2-pyridyl ketone, (py)(2)CO, and acetates (MeCO2-) in nickel(II) chemistry in H2O-MeCN under basic conditions (Et3N) afforded the coordination cluster [ Ni-11(OH)(6)(O2CMe)(12){(py)(2)C(OH)(O)}(4)(H2O)(2)] (1) in 80% yield, where (py)(2)C(OH)(O)(-) is the monoanion of the gem-diol form of (py)(2)CO. The complex contains a novel core topology. The core of 1 comprises a central non-linear {Ni-3(mu(2)-OH)(4)}(2+) subunit which is connected to two cubane {Ni-4(OH)(mu(3)-OR)(2)(mu(3)-OR')}(4+) subunits [RO- = (py)(2)C(OH)(O)(-) and R'O- = MeCO2-] via the OH- groups of the former which become mu(3). The linkage of the Ni3 subunit to each Ni-4 subunit is completed by two eta(1):eta(1):mu(2) and one eta(1):eta(3):mu(4) MeCO2- groups. Peripheral ligation is provided by two terminal monodentate MeCO2- and two terminal aqua ligands. The (py)(2)C(OH)(O)(-) ligands adopt the eta(1):eta(1):eta(3):mu(3) coordination mode. From the twelve MeCO2- ligands, two are eta(1), two eta(1):eta(3):mu(4) and eight adopt the syn, syn eta(1):eta(1):mu(2) coordination mode; four of the latter bridge NiII centers at opposite faces of the cubane subunits. Complex 1 is the largest nickel(II)/(py)(2)CO-based ligand coordination cluster discovered to date and has an extremely rare nuclearity (Ni-11) in the cluster chemistry of nickel(II). Variable-temperature, solid state dc susceptibility, and variable-field magnetization studies at low temperatures were carried out on complex 1. The study of the data reveals an S = 3 ground state, which has been well rationalized in terms of known magnetostructural correlations and the structural features of 1. An attempt has also been made to interpret the magnetic properties of the undecanuclear cluster in a quantitative manner using four exchange interaction parameters and the obtained J values are discussed. The role of H2O in the solvent medium that led to 1, and the high nickel(II) and acetate to di-2-pyridyl ketone reaction ratio employed for its preparation, on the nuclearity and identity of the cluster are critically analyzed.
Funder
Publisher
MDPI AG
Publisher DOI
10.3390/magnetochemistry2030030
Rights
Attribution-NonCommercial-NoDerivs 3.0 Ireland