Dysprosium Chlorocyanoanilate-Based 2D-Layered Coordination Polymers

Sahadevan S. A.

First

Member of the Collaboration Group

;Monni N.

Member of the Collaboration Group

;Abherve A.

Member of the Collaboration Group

;COSQUER, GOULVEN

Member of the Collaboration Group

;OGGIANU, MARIANGELA

Member of the Collaboration Group

;Ennas G.

Member of the Collaboration Group

;Yamashita M.

Member of the Collaboration Group

;AVARVARI, NARCIS CIPRIAN

Member of the Collaboration Group

;Mercuri M. L.

Last

Member of the Collaboration Group

2019-01-01

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Abstract

A series of two-dimensional (2D)-layered coordination polymers (CPs) based on the heterosubstituted anilate ligand ClCNAn2– derived from 3-chloro-6-cyano-2,5-dihydroxybenzoquinone and DyIII are reported. By changes in the synthetic methods (layering technique, solvothermal or conventional one-pot reactions) and conditions (solvent, concentration, etc.), different types of 2D extended networks could be prepared and structurally characterized. Compounds 1 and 1′, two polymorphs with the formula [Dy2(ClCNAn)3(DMSO)6]n·(H2O)x [x = 7 (1), 0 (1′)], were prepared by a conventional one-pot reaction and recrystallized at different concentrations. Compound 2, formulated as [Dy2(ClCNAn)3(DMF)6]n, was prepared by a layering technique, while compound 3, formulated as {(Me2NH2)2[Dy2(ClCNAn)4(H2O)2]·(DMF)2·(H2O)5}n, was obtained by a solvothermal method. Compounds 1 and 2 are neutral 2D CPs of the ClCNAn2– ligand and DyIII ions, while 3 presents 2D anionic layers of [Dy2(ClCNAn)4(H2O)2]2– alternating with cationic layers of Me2NH2+ ions. These compounds show very diverse networks, with compound 1 forming 2D (8,3) and (4,3) topology with eight- and four-membered rings with square cavities, 1′ and 2, respectively, a 2D (6,3) topology with six-membered rings (a rectangular cavity for 1′ and a regular hexagonal cavity for 2), and 3 a 2D (4,4) topology with distorted square cavities. In this respect, 1 and 1′ represent the first examples of polymorphism in the family of anilate-based CPs. Thermal analysis measurements (differential scanning calorimetry and thermogravimetry) show an exothermic polymorphic transformation from the kinetically stable 1′ phase to the thermodynamically stable phase 1. The magnetic behavior of 1–3 very likely indicates depopulation of the mJ levels, while the presence of weak antiferromagnetic coupling between the DyIII centers mediated by the anilate bridge cannot be excluded.