Crystals (Jan 2022)

Synthesis, Crystal Structures and Magnetic Properties of Trinuclear {Ni<sub>2</sub>Ln} (Ln<sup>III</sup> = Dy, Ho) and {Ni<sub>2</sub>Y} Complexes with Schiff Base Ligands

  • Despina Dermitzaki,
  • Angeliki Panagiotopoulou,
  • Michael Pissas,
  • Yiannis Sanakis,
  • Vassilis Psycharis,
  • Catherine P. Raptopoulou

DOI
https://doi.org/10.3390/cryst12010095
Journal volume & issue
Vol. 12, no. 1
p. 95

Abstract

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The reaction of the Schiff base ligand o-OH-C6H4-CH=N-C(CH2OH)3, H4L, with Ni(O2CMe)2∙4H2O and lanthanide nitrate salts in a 4:2:1 ratio lead to the formation of the trinuclear complexes [Ni2Ln(H3L)4(O2CMe)2](NO3) (Ln = Dy (1), Ho (2), and Y (3)) which crystallize in the non-centrosymmetric space group Pna21. The complex cation consists of the three metal ions in an almost linear arrangement. The {Ni2Ln} moieties are bridged through two deprotonated Ophenolato groups from two different ligands. Each terminal NiII ion is bound to two ligands through their Ophenolato, the Nimino atoms and one of the protonated Oalkoxo groups in a distorted octahedral. The central lanthanide ion is coordinated to four Ophenolato oxygen from the four ligands, and four Ocarboxylato atoms from two acetates which are bound in the bidentate chelate mode, and the coordination polyhedron is biaugmented trigonal prism, which probably results in a non-centrosymmetric arrangement of the complexes in the lattice. The magnetic properties of 1–3 were studied and showed that 1 exhibits field induced slow magnetic relaxation.

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