Recent advances in metal phosphonate chemistry

Clark, 1989, Structural investigation of the Cu(II) chelate of N-phosphonomethylglycine, X-ray crystal structure of Cu(II) [O2CCH2NHCH2PO3]·Na(H2O)3.5, Inorg Chim Acta, 164, 59, 10.1016/S0020-1693(00)80876-2

Cao, 1992, Layered metal phosphates and phosphonates: from crystals to monolayers, Accounts Chem Res, 25, 420, 10.1021/ar00021a007

Thompson, 1994, Use of layered metal phosphonates for the design and construction of molecular materials, Chem Mater, 6, 1168, 10.1021/cm00044a015

Clearfield, 1990, Layered phosphates, phosphites, and phosphonates of groups 4 and 14 metals, Comment Inorganic Chem, 10, 89, 10.1080/02603599008050860

Clearfield, 1996, Layered metal phosphates and their intercalation chemistry, 7

Alberti, 1978, Crystalline Zr(RPO3)2 and Zr(ROPO3)2 compounds: a new class of materials having layered structure of the zirconium phosphate type, Inorg Nucl Chem, 40, 1113, 10.1016/0022-1902(78)80520-X

Poojary, 1993, Determination of crystal structures from limited power data sets: crystal structure of zirconium phenylphosphonate, Acta Crystallogr B-Struct Sci, B49, 996, 10.1107/S0108768193006937

Troup, 1977, On the mechanism of ion exchange in zirconium phosphates. XX. Refinement of the crystal structure of α-zirconium phosphate, Inorg Chem, 16, 3311, 10.1021/ic50178a065

Dines, 1981, Derivatized lamellar phosphates and phosphonates of M(IV)ions, Inorg Chem, 20, 92, 10.1021/ic50215a022

Giulio, 1984, Recent progress in the intercalation chemistry of layered α-zirconium phosphate and its derivatives, and future perspectives for their use in catalysis, J Mol Catal, 27, 235, 10.1016/0304-5102(84)85083-X

Huan, 1992, Hydrothermal synthesis and single-crystal structural characterization of the layered vanadium(IV) phosphate VOC6HH5PO3·H2O, Chem Mater, 4, 661, 10.1021/cm00021a031

Guliants, 1995, Vanadyl(IV) phosphonates, VOCnH2n+1PO3·κH2O (n=0–4, κ=1 or 1.5), as precursors of vanadyl(IV) pyrophosphate, (VO)2P2O7, Chem Mater, 7, 1493, 10.1021/cm00056a014

Yang, 1987, The preparation and ion exchange properties of zirconium sulphophosphonates, React Polym, 5, 13

Colon, 1988, Optical investigations of the chemical microenvironment within the layered solid zirconium phosphate sulfophenylphosphonate, J Phys Chem, 92, 5777, 10.1021/j100331a046

Kullberg, 1990, Thermodynamics of alkali and alkaline earth metal ion-exchange on zirconium sulphophosphonates, Solvent Extr Ion Exch, 8, 187, 10.1080/07366299008917993

Stein, 1996, Conductivity of group IV metal sulfophosphonates and a new class of interstratified metal amine-sulfophosphonates, Solid State Ionics, 10.1016/0167-2738(95)00215-4

Alberti, 1989, All solid state hydrogen sensors based on pellicular α-zirconium phosphate as a protonic conductor, Solid State Ionics, 35, 153, 10.1016/0167-2738(89)90025-8

Alberti, 1992, Protonic conductivity of layered zirconium phosphonates containing −SO3H groups.II. Ac conductivity of zirconium alkyl-sulphophenyl phosphonates in the range 100–200°C, in the presence or absence of water vapour, Solid State Ionics, 52, 291, 10.1016/0167-2738(92)90175-O

Yamanaka, 1976, Synthesis and characterization of the organic derivatives of zirconium phosphate, Inorg Chem, 15, 2811, 10.1021/ic50165a049

Ortiz-Avila, 1985, Polyether derivatives of zirconium phosphate, Inorg Chem, 24, 1773, 10.1021/ic00206a013

Clearfield, 1992, Polyether and polyimine derivatives of layered zirconium phosphates as supramolecules, 178

Ortiz-Avila, 1994, Zirconium polyimine phosphonates. A new class of remarkable complexing agents, Inorg Chem, 32, 2499, 10.1021/ic00090a002

Stein, 1994, Synthesis of novel metal phosphonate complex structures through soft chemistry, 152/153, 115

Alberti, 1991

Wang, 1993, Preparation of layered zirconium phosphonate/phosphate, zirconium phosphonate/phosphite and related compounds, Mater Chem Phys, 35, 208, 10.1016/0254-0584(93)90133-7

Clearfield, 1968, New crystalline phases of zirconium phosphate, J Inorg Nucl Chem, 30, 2249, 10.1016/0022-1902(68)80224-6

Clayden, 1987, Solid-state nuclear magnetic resonance spectroscopic study of γ-zirconium phosphate, J Chem Soc Dalton Trans, 8, 1877, 10.1039/DT9870001877

Christensen, 1990, X-ray powder diffraction study of layer compounds. The crystal structure of α-Ti(HPO4)2·H2O and a proposed structure for γ-Ti(H2PO4)(PO4)·2H2O, Acta Chem Scand, 44, 865, 10.3891/acta.chem.scand.44-0865

Poojary, 1995, X-ray powder structure and Rietveld refinement of γ-zirconium phosphate, Zr(PO4)H2PO4·2H2), J Chem Soc Dalton Trans, 111, 10.1039/DT9950000111

Alberti, 1993, Preparation and characterization of zirconium phosphate phosphonates, ZrPO4(H2PO4)1/t-κ(RPO2OH)κ·nH2O, with γ-layer structure (RCH3, C3H7, C6H11), Inorg Chem, 32, 4600, 10.1021/ic00073a022

Yamanaka, 1981, Exchange of interlayer monohydrogen orthophosphate ions of zirconium bis(monohydrogen orthophosphate) dihydrate with 1- and 2-glycero phosphate ions, J Inorg Nucl Chem, 43, 1659, 10.1016/0022-1902(81)80354-5

Poojary, 1994, Structure of a mixed phosphate/phosphonate layered zirconium compound from synchroton X-ray powder diffraction data, 33, 2324

Vermuelen, 1992, Stable photoinduced change separation in layered viologen compounds, Nature, 358, 656, 10.1038/358656a0

Vermeulen, 1993, Efficient photoinduced charge separation in layered zirconium viologen phosphonate compounds, J Amer Chem Soc, 115, 11767, 10.1021/ja00078a015

Poojary, 1994, Structure of a novel layered zirconium diphosphonate compound: Zr2(O3PCH2CH2-viologen-CH2CH2PO3)F6·2H2O, Chem Mater, 6, 1845, 10.1021/cm00046a045

Vermeulen, 1994, Synthesis and photochemical properties of porous zirconium viologen phosphonate compounds, Chem Mater, 6, 77, 10.1021/cm00037a017

Dines, 1982, Derivatized layered M(V) phosphonates

Clearfield, 1996, New porous structures from layered phosphonates, Ind Eng Chem Res

Alberti, 1993, Zirconium phosphite (3,3′,5′-5,tetramethyl-biphenyl) diphosphonate, a microporous, layered, inorganic/3-organic polymer, 32, 1357

Poojary, 1995, Synthesis and X-ray powder structure of a novel porous uranyl phenylphosphonate containing unidimensional channels flanked by hydrophobic regions, 34, 1508

Maeda, 1994, Synthesis of the first microporous aluminium phosphonate with organic groups covalently bonded to the skeleton, 33, 2335

Bideau, 1994, Preparation, structure, and magnetic properties of copper(II) phosphonates, β-CuII(CH3PO3), an original three-dimensional structure with a channel-type arrangement, Inorg Chem, 33, 4885, 10.1021/ic00100a011

Martin, 1989, The crystal and molecular structure of zinc phenylphosphonate, Inorg Chim Acta, 155, 7, 10.1016/S0020-1693(00)89271-3

Cao, 1988, Synthesis and structural characterization of a homologous series of divalent-metal phosphonates, MII(O3PR)·H2O and MII(HO3PR)2, Inorg Chem, 27, 2781, 10.1021/ic00289a008

Scott, 1995, Intercalation of alkylamines into dehydrated and hydrated zinc phenylphosphonates, Mater Chem, 5, 315, 10.1039/jm9950500315

Scott, 1995, Synthesis, characterization and amine interaction behavior of zinc phosphite phenylphosphonate mixed derivatives, Chem Mater, 7, 1095, 10.1021/cm00054a008

Damodara, 1995, Coordination interaction of alkylamines into layered zinc phenylphosphate, J Amer Chem Soc, 117, 11278

Damodara, 1995, Synthesis, X-ray powder structure, and intercalation behavior of molybdenyl phenylphosphonate, MoO2(O3PC6H5)·H2O, Chem Mater, 7, 822, 10.1021/cm00053a003

Harrison, 1995, Syntheses, crystal structures, and properties of new layered alkali-metal molybdenum (VI) methylphosphonates: Cs2(MoO3)3PO3CH3 and Rb2(MoO3)PO3CH3, Inorg Chem, 3L, 4774, 10.1021/ic00123a009

Khan, 1994, Hydrothermal synthesis and structural characterization of an organically templated layered oxovanadium (IV) organophosphonate: (C2H5NH3)2[V3O3(H2O)(PhPO3)4], Inorg Chem, 33, 3855, 10.1021/ic00096a003

Khan, 1994, An organically templated layered vanadium (IV)-oxo-organophosphonate exhibiting organic cations and open-framework V/P/O layers: [(C2H5)NH2][(CH3)2NH2][V4O4(OH)2(C6H5PO3)4], J Amer Chem Soc, 116, 4525, 10.1021/ja00089a071

Khan, 1994, Hydrothermal synthesis and structure of [(C2H5)4N][(VO)3(OH)(H2O)(C2H5PO3)33]·H2O: an inorganic—organic polymer exhibiting undulating V/P/O layers and interlamellar organic tenplates, Chem Mater, 6, 721, 10.1021/cm00042a003

Soghomonian, 1995, Investigations into the targeted design of solids: hydrothermal synthesis and structures of one-, two-, three-dimensional phases of the oxovanadium—organodiphosphonate system, 34, 223

Zoghomonian, 1995, Hydrothermal syntheses and crystal structures of two oxovanadium—organodiphosphonate phases: [H2N(C2H4)2NH2][(VO)2(O3PCH2CH2CH2PO3H)2], a “stair-step” structure incorporating an organic cationic template, and [(VO)(H2O)O3PCH2NH(C2H4)2NHCH2PO3], a layered structure “pillared” by a piperazinium-tethered diphosphonate, Inorg Chem, 34, 4460, 10.1021/ic00121a026