Abstract |
A series of self-assembled lanthanide coordination polymers formulated as [La(L1)(2)](n)center dot 1n(DMF)H center dot 3n(DMF) (1), [Ce(L1)(2)](n)center dot 1n(DMF)H center dot 2n(DMF) (2), [Sm(L1)(2)](n)center dot 1n(HCONH2)H center dot 2n(HCONH2) (3), [La(L2)(HL2)(H2O)(DMF)(2)](n) (4) and [Ce(L2)(HL2)(H2O)(DMF)(2)](n) (5) [H(2)L1: 2-acetamidoterephthalic acid and H2L2: 2-benzamidoterephthalic acid] has been synthesized from the reactions of H(2)L1 or H-2 L2 with different lanthanide salts under hydrothermal conditions and characterized by elemental analysis, IR spectroscopy, X-ray single-crystal diffraction, powder X-ray diffraction, thermogravimetry and photoluminescence spectroscopy. X-ray diffraction analyses reveal that frameworks 1-3 have similar types of three-dimensional structures, composed of L1(2-) ligands and trinuclear lanthanide nodes, in which two crystallographically independent lanthanide atoms are present. Frameworks 4 and 5 are isostructural, featuring a double chain-type one-dimensional coordination polymer which expands to 3D by means of H-bond interactions. These frameworks act as heterogeneous polymeric solid catalysts for the nitroaldol (Henry) reaction of different aldehydes with nitro-alkanes, in water, and can be recycled without losing appreciable activity. |