Four novel cobalt(II) complexes mimicking metalloenzyme active sites, novel C ₁₄H ₂₂Cl ₁₂Co ₂O ₁₃2C ₃H ₈O (1), C ₂₈H ₃₆Cl ₂₄Co ₄O ₂₈4C ₄H ₈O ₂ (2), C ₁₆H ₂₂Cl ₁₂Co ₂O ₁₃C ₂HCl ₃O ₂ (3), C ₁₆H ₂₂Cl ₁₂Co ₂O ₁₃ (4), and one known C ₄₀H ₇₈Cl ₈Co ₂O ₁₇ (5) are composed of the same core of two high-spin cobalt(II) centers triply bridged by water and two trichloroacetato (1-4) or two pivalate (5) groups but differ in terminal ligands. The crystal structures of new compounds 1-4 belong to the space groups P1̄, P2 ₁/c, P1̄, and Pbcn, respectively. All five investigated complexes contain Co atoms in distorted octahedral coordination. The complexes were characterized by magnetic susceptibility and magnetization measurements and by variable-temperature variable-field magnetic circular dichroism spectroscopy. Experimental data were analyzed in the frame of the theoretical model, which includes an unquenched orbital moment of the Co ^II ions. All investigated compounds are antiferromagnetically coupled with exchange constants in the range -1.5 to -2.1 cm ^-1. However, there is a significant difference between the crystal-field-splitting parameters.