Different Temperature Dependence of Magnetic Susceptibility of Different Molecular Complexes of Copper (II) with 7-Hydroxy-4-methyl-5-aza-hept-4-en-2-on

Abstract

Two principally different molecular structures in the crystalline state are known from the copper (II) complex with 7-hydroxy-4-methyl-5-aza-hept-4-en-2-on. The magnetic susceptibilities of three forms of this compound [α-(CuEIA)₄, β-(CuEIA)₄, and β-(CuEIA)₄·2 C₆H₆] have been measured in the temperature range 2.6-300 K. The results indicate that principally different molecular structures correspond to principally different magnetic properties. While the α-form shows antiferromagnetic spin coupling in the S′ = 0 ground state, the electrons in the β-form are coupled ferromagnetically in the S′ = 2 ground state. A fitting procedure of a theoretical equation based on the isotropic HDVV-model led to a satisfactory agreement between calculated and experimental data for α-(CuEIA)₄ and β-(CuEIA)₄ , while this was not possible for β-(CuEIA)₄·2C₆H₆ . The exchange parameters obtained for α-(CuEIA)₄ (g=2.13, J₁₂= -17cm^-1, J₁₃=+3.5cm^-1, and N_a=60-10^-8 cgs-emu) are in good agreement with the values given by Ginsberg et al. For β-(CuEIA)₄ a weak antiferromagnetic intercluster interaction could be determined at low tempera­tures. The fitting procedure yielded the following values: g=2.05, J₁₂=-6.4 cm^-1, J₁₃=+24.2 cm^-1, N_a=10·10^-6 cgs-emu, ⊖=-0.27°.