Magnetic phase transitions in transition-metal complexes with triazole derivatives

Three divalent transition-metal (Co, Ni and Cu) complexes with the organic anion, 1,2,4-triazolato (tr), as a ligand molecule were prepared by means of hydrothermal syntheses and their magnetic properties were investigated by SQUID magnetometry. The Co(tr)₂ and Cu(tr)₂ complexes exhibit long range ordering below 8 and 30 K, respectively, while the Ni(tr)₂ complex does not show any magnetic phase transition down to 1.8 K. The magnetization isotherms of Co(tr)₂ and Cu(tr)₂ measured at 2.0 K show hysteresis loops with the coercive fields of 0.5 and 4.7 kOe, respectively. At temperatures higher than about 50 K, the temperature dependence of the magnetic susceptibility of Co(tr)₂, Ni(tr)₂ and Cu(tr)₂ follows the Curie-Weiss law with the Curie constants of 2.95, 0.945 and 0.420 emu K mol⁻¹ and the Weiss temperatures of −62, −74 and −97 K, respectively. These results suggest that the magnetically ordered phases observed in Co(tr)₂ and Cu(tr)₂ at low temperatures come from antiferromagnetic interactions resulting in canted arrangements of magnetic moments of the transition-metal cations. We discuss here the magnetic interactions in these transition-metal complexes by referring the results of the magnetization measurements.