Abstract
Dodecylnicotinate bis-adducts of binuclear copper carboxylates, of the general formula Cu2(O2CC(n-1)H(2n-1))4(C5H4NCOOC12H25)2, were synthesized for n = 10, 12, 14, 16, 18 and 20, and their crystal structure, thermal behavior and magnetic properties studied. The molecular structure of the decyl derivative has been determined from single-crystal X-ray diffraction data. The dimer is centrosymmetric with the CuII ions in a square-pyramidal coordination with four O-alkyl O atoms [average d(Cu-O) 1.960 (6) A] in the basal plane and the nicotine N atom at apical positions [d(Cu-N) 2.183 (3) A]. The copper ions, 2.615 (1) A apart, are bridged by four O-alkyl carboxylate groups. Both the n = 20 and n = 18 homologues exhibit lamellar phases, which can be related to the supramolecular arrangement found in the n = 10 derivative. The magnetic behavior of the decyl and octadecyl dimers was studied in the 2-300 K temperature range. They exhibit a strong intramolecular antiferromagnetic interaction (Cu-Cu superexchange coupling constant J = -347 cm(-1) for the decyl derivative), which can be attributed to a large overlap of the metal 3d orbitals and the oxygen lone pair orbitals of the linking carboxylate groups.
Highlights
Investigations on dicopper carboxylates exhibiting the lantern structure have been directed for a variety of interests (Mehrotra & Bohra, 1983; Kato & Muto, 1988)
We report here the synthesis, spectroscopic and structural characterization, phase transitions and magnetic properties of tetrakis-"-carboxylato-bis(dodecylnicotinato)-dicopper(II) complexes Cu2(O2CCn À 1H2n À 1)4(C5H4NCOOC12H25)2 for n = 10, 12, 14, 16, 18 and 20, including the crystal and molecular structure of the decyl derivative
The use of long-chain nicotinate derivatives as axial ligands was successful in order to break out the polymeric structure of dicopper carboxylates
Summary
Investigations on dicopper carboxylates exhibiting the lantern structure have been directed for a variety of interests (Mehrotra & Bohra, 1983; Kato & Muto, 1988). All the copper carboxylate liquid crystals reported far are polymeric, the axial position of each Cu2+ ion being occupied, in the Cu2(O2CR) series, by an O atom of a neighbor dimer. To break this polymeric structure into distinct dimers we decided toblock' the axial positions of the longchain dicopper carboxylates by forming bis(pyridine derivative) adducts (like in the nicotinamide antifungals). Dodecanol (14 ml, 62 mmol) dissolved in toluene was added to the nicotinyl chloride and the mixture was stirred for 4 h at 353 K under an N2 atmosphere.
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