Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/2843
Title: Syntheses, Structures and Properties of Group 12 Element (Zn, Cd, Hg) Coordination Polymers With a Mixed-Functional Phosphonate-Biphenyl-Carboxylate Linker
Authors: Heering, C
Biju, F
Nateghi, B
Makhloufi, G
Lüdeke, S
Janiak, C
Issue Date: 25-May-2016
Publisher: Royal Society of Chemistry
Citation: CrystEngComm, 18(27):5209-5223
Abstract: The new phosphonate-carboxylate ligand from 4-phosphono-biphenyl-4′-carboxylic acid (H2O3P–(C6- H4)2–CO2H, H3BPPA) is based on the rigid biphenyl system and is studied toward the coordination behavior of group 12 elements zinc, cadmium and mercury. The crystalline products from hydrothermal syntheses highlight the versatile and different coordination modes with the (partially) deprotonated H3BPPA ligand to give coordination polymeric 3D-[Zn5(μ3-OH)4(μ4-O3P–(C6H4)2–CO2-μ2)2]n (5), 2D-[Zn(μ6-O3P–(C6H4)2– CO2H)]n (6), 3D-[Cd3(μ5-O3P–(C6H4)2–CO2-μ2)(μ6-O3P–(C6H4)2–CO2-μ3)]n (7) and 2D-[Hg(μ3-HO3P–(C6- H4)2–CO2H)]n (8). The cobalt complex, 2D-[Co(μ4-O3P–(C6H4)2–CO2H)]n (9) is isostructural to 6. Through additional classic strong carbonyl O–H⋯O hydrogen bonding the dimensionality of the 2D coordination networks increases to 3D supramolecular frameworks. The carboxy-phosphonate ligand shows five different coordination modes which can be described as μ4-O3P–CO2-μ2 (5), μ6-O3P– (6), μ5-O3P–CO2-μ2, μ5- O3P–CO2-μ3 (7), and μ3-O3P– (8), that is, the ligand bridges altogether between 3 to 8 metal atoms with the phosphonate group alone connecting already 3 to 6 metal atoms. Layers of metal–oxygen polyhedra are interconnected via the biphenyl linker, which either coordinates metal atoms with both donor groups or the –COOH end forms tail-to-tail hydrogen bonds to create 3D or 2D coordination networks, respectively. In the flat {MOx} layers in 6 and 7 the Zn and Cd metal nodes represent a honeycomb and an mcm net, respectively. The coordination polyhedra of the Cd atoms in compound 7 were analyzed towards a trigonal-prismatic coordination environment. The complexes are hydrolytically very stable due to their hydrothermal preparation from aqueous solution at 180–200 °C. The compounds could be stored in water or air for months without apparent decomposition. Compounds 5 and 7, where the ligand is fully deprotonated, start to decompose at ∼400 °C. The fluorescence emission spectrum of the ligand, 4, shows an intense peak at 365 nm (λex = 316 nm). The fluorescence emission of the metal complexes 5, 7 and 9 is shifted towards larger wavelengths with values of 417 nm, 415 nm and 410 nm, respectively (λex = 354 nm for 5, λex = 350 nm for 7, λex = 400 nmfor 8, λex = 360 nm for 9). In addition, the crystal structures of the H3BPPA ligand precursors 4-iodo-4′-biphenylcarboxylic acid methyl ester, and 4-diethylphosphono- 4′-biphenylcarboxylic acid methyl ester are described here for the first time.
URI: http://hdl.handle.net/123456789/2843
Appears in Collections:2016

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