Cu^II coordination polymers capable of gelation and selective SO₄^–2 separation

Abstract

A crystal engineering rationale has been exploited to generate a series of Cu^II coordination polymers namely [{Cu(μ-L1)(SO₄)(H₂O)₃}·H₂O]_∝CP1, [{Cu(μ-L1)₂ (H₂O)₂}F·2H₂O]_∝CP2 [{Cu(μ-L1)₂(H₂O)₂}Cl·H₂O]_∝CP3 and [{Cu(μ-L1)₂ (H₂O)₂}Br·H₂O]_∝CP4 derived from N, Ń-(3-pyridyl) m-phenyleneurea (L1) capable of gelling aqueous solvents (DMF/water); in situ crystallization of CP1 has been exploited to separate SO₄^2– anion selectively from a complex mixture of oxo anions (SO₄^2–, NO₃^–, ClO₄^–, CF₃SO₃^–). While the gels are characterized by optical-, scanning electron microscopy and rheology, structure–property (gelation, as well as anion separation) correlation has been attempted by using single crystal- and powder-X-ray diffraction data.