@Article{D0CE01055C,
author ="Doroshenko, Iaroslav and Böhme, Michael and Buchholz, Axel and Simonikova, Lucie and Plass, Winfried and Pinkas, Jiri",
title  ="Octanuclear nickel phosphonate core forming extended and molecular structures",
journal  ="CrystEngComm",
year  ="2020",
pages  ="-",
publisher  ="The Royal Society of Chemistry",
doi  ="10.1039/D0CE01055C",
url  ="http://dx.doi.org/10.1039/D0CE01055C",
abstract  ="Three new nickel phosphonate complexes {[Na2Ni8(L)6] · nSolv}m (L = SAA3– (1){,} BSAA3– (2){,} NAA3– (3); Solv = H2O{,} MeOH; m = ∞ (1{,} 2){,} 1 (3)) were synthesized. All three complexes possess a novel octanuclear {Ni8} phosphonate core{,} which consists of four dinuclear doubly oxygen-bridged units{,} further interconnected to each other by phosphonate oxygen bridges. The steric features of the ligands influence the aggregation degree. Molecules of 1 and 2 are interconnected by sodium cations into 2D layered and 1D chain extended structures{,} respectively{,} while the molecules of 3 with the bulkiest ligand are not bonded with each other. Magnetic properties of the obtained {Ni8} core unit were studied for complex 1 as a representative of this family of compounds and are reported in detail. Magnetic susceptibility at low temperature is indicative of a singlet ground state. The absence of saturation and the magnetization behavior points to zero-field splitting (ZFS). Simulation of the magnetization data revealed an easy-plane magnetic anisotropy with an axial ZFS parameter D = 7:4 cm-1. The magnetic properties of 1 were also studied by broken-symmetry DFT calculations (BS-DFT){,} which revealed the presence of ferromagnetic exchange interactions within the dinuclear units of the {Ni8} core with a dominant antiferromagnetic interaction between these dinuclear entities. These results are in good agreement with coupling constants derived from the experimental susceptibility and mangetization data."}