New lead inorganic-organic hybrid microporous and layered materials: Synthesis, properties, and crystal structures

Two new lead(II) phosphonates, namely, Pb-2{PMIDA}.1.5H(2)O (1) (H(4)PMIDA = H2O3PCH2N(CH2CO2H)(2)) and Pb(H2L) (2) (H4L = CH3N(CH2PO3H2)(2)), have been synthesized by hydrothermal reactions at 150 degreesC. Complex 1 crystallized in tetragonal P4(2)/n with cell dimensions of a = 17.317(7) and c = 7.507(5) Angstrom and Z = 8. In complex 1, Pb(1) is 6-coordinated by chelation in a tetradentate fashion by a PMIDA ligand (3 O, 1 N) and two phosphonate oxygen atoms from neighboring Pb(PMIDA) units in a severely distorted octahedral geometry, whereas Pb(2) is 6-coordinated by 4 carboxylate and 2 phosphonate oxygen atoms also with a severely distorted octahedral environment. These two different types of Pb(II) ions are interconnected through bridging carboxylate and phosphonate groups, resulting in a 3D network with micropores, whose cavity is filled by lattice water molecules interlinked via hydrogen bonds. Each PMIDA ligand bridges with 8 Pb(II) ions (3 Pb(1) and 5 Pb(2)). Complex 2 is orthorhombic, P2(1)2(1)2(1), with a = 7.382(5), b = 7.440(6), and c = 30.75(2) Angstrom and Z = 8. The structure of 2 features a 2D double lead(II) phosphonate layer along the ab plane. Each lead(II) ion is 5-coordinated by five phosphonate oxygen atoms from four ligands in a distorted trigonal bipyramid geometry. These double layers are further interconnected via hydrogen bonds between the protonated and uncoordinated phosphonate oxygens along the c-axis.