Antiferromagnetic Three-Dimensional Order Induced by Carboxylate Bridges in a Two-Dimensional Network of [Cu3(dcp)2(H2O)4] Trimers

A new Cu(II) complex, [Cu3(dcp)2(H2O)4] n , with the ligand 3,5-pyrazoledicarboxylic acid monohydrate (H3dcp) has been prepared by hydrothermal synthesis, and it crystallizes in the monoclinic space group P21/c with a = 11.633(2) Å, b = 9.6005(14) Å, c = 6.9230(17) Å, β = 106.01(2)°, and Z = 2. In t...

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Published in:Inorganic chemistry 2003-06, Vol.42 (11), p.3492-3500
Main Authors: King, Philippa, Clérac, Rodolphe, Anson, Christopher E, Coulon, Claude, Powell, Annie K
Format: Article
Language:English
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Summary:A new Cu(II) complex, [Cu3(dcp)2(H2O)4] n , with the ligand 3,5-pyrazoledicarboxylic acid monohydrate (H3dcp) has been prepared by hydrothermal synthesis, and it crystallizes in the monoclinic space group P21/c with a = 11.633(2) Å, b = 9.6005(14) Å, c = 6.9230(17) Å, β = 106.01(2)°, and Z = 2. In the solid state structure of [Cu3(dcp)2(H2O)4] n , trinuclear {Cu3(dcp)2(H2O)4} repeating units in which two dcp3- ligands chelate the three Cu(II) ions with the central Cu(II) ion, Cu(1) (on an inversion center), link to form infinite 2D sheets via syn−anti equatorial−equatorial carboxylate bridges between Cu(2) atoms in adjacent trimers. These layers are further linked by syn−anti axial−equatorial carboxylate bridging between Cu(1) atoms in adjacent sheets resulting in the formation of a crystallographic 3D network. A detailed analysis of the magnetic properties of [Cu3(dcp)2(H2O)4] n reveals that the dcp3- ligand acts to link Cu(II) centers in three different ways with coupling constants orders of magnitude apart in value. In the high temperature region above 50 K, the dominant interaction is strongly antiferromagnetic (J/k B = −32 K) within the trimer units mediated by the pyrazolate bridges. Below 20 K, the trimer motif can be modeled as an S = 1/2 unit. These units are coupled to their neighbors by a ferromagnetic interaction mediated by the syn−anti equatorial−equatorial carboxylate bridge. This interaction has been estimated at J 2D/k B = +2.8 K on the basis of a 2D square lattice Heisenberg model. Finally, below 3.2 K a weak antiferromagnetic coupling (J 3D/k B = −0.1 K) which is mediated by the syn-anti axial − equatorial carboxylate bridges between the 2D layers becomes relevant to describe the magnetic (T, H) phase diagram of this material.
ISSN:0020-1669
1520-510X
DOI:10.1021/ic0261777