References
- Clearfield , A. 1998 . Organically pillared micro‐ and meso‐porous materials . Chem. Mater. , 10 ( 10 ) : 2801 – 2810 .
- Cheetham , A. , Ferey , G. and Loiseau , T. 1999 . Open‐framework inorganic materials . Angew. Chem., Int. Ed. , 38 ( 22 ) : 3268 – 3292 .
- Drumel , S. , Janvier , P. and Bujoli , B. 1996 . Structure of Zn(O3PC2H4CO2H) · 0.5C6H5NH2 and XANES‐EXAFS study of the intercalation of amines into Zn(O3PR) · H2O zinc alkylphosphonates . J. Mater. Chem. , 6 ( 11 ) : 1843 – 1847 .
- Olivie , O. , Jean , B. and Fabrice , L. 2004 . Mixed 1D‐2D inorganic polymeric zinc ferrocenylphosphonate: Crystal structure and electrochemical sxxtudy . J. Am. Chem. Soc. , 126 ( 38 ) : 12090 – 12096 .
- Ying , S. M. and Mao , J. G. 2006 . Introducing a second ligand: New route to luminescent lanthanide polyphosphonates . Cryst. Growth. Des. , 6 ( 4 ) : 964 – 968 .
- Yang , B. P. , Sun , Z. M. and Mao , J. G. 2004 . Syntheses, characterizations and crystal structures of 2 lead(II) diphosphonates: Pb2[NH(CH2PO3)2]2H2O and Pb3[HO2C(CH2)3NH(CH2PO3)2]22H2O . Inorg. Chim. Acta. , 357 ( 5 ) : 1583 – 1588 .
- Soghomonian , V. , Chen , Q. and Zubieta , J. 1995 . Investigations into the targeted design of solids: hydrothermal synthesis and structures of one‐, two‐, and three‐dimensional phases of the oxovanadium‐organodiphosphonate system . Angew. Chem., Int. Ed. , 34 ( 2 ) : 223 – 226 .
- Serpaggi , F. and Ferey , G. 1999 . Hybrid organic‐inorganic frameworks (MIL‐n). Hydrothermal synthesis of a series of pillared lanthanide carboxyethylphosphonates and X‐ray powder ab initio structure determination of MIL‐19, Pr[O3P(CH2)2CO2] . Inorg. Chem. , 38 ( 21 ) : 4741 – 4744 .
- Poojary , D. M. , Zhang , B. L. and Clearfield , A. 1997 . Pillared layered metal phosphonates. Syntheses and X‐ray powder structures of copper and zinc alkylenebis(phosphonates) . J. Am. Chem. Soc. , 119 ( 51 ) : 12550 – 12559 .
- Zheng , L. M. , Duan , C. Y. and Xin , X. Q. 1998 . Synthesis, crystal structure and magnetic properties of a novel mixed‐valence copper phosphonate: Na2Cu15(hedp)6(OH)2(H2O) (hedp=1‐hydroxyethylidenediphosphonate) . J. Chem. Soc. Dalton Trans. , 6 : 905 – 908 .
- Sanselme , M. , Guillou , N. and Ferey , G. 2001 . Hydrothermal synthesis and ab initio structural resolution from X‐ray powder diffraction of a new open framework Cu(II) carboxyethylphosphonate: Na[Cu(O3P‐(CH2)2‐CO2)] . Inorg. Chem. , 40 ( 4 ) : 723 – 725 .
- Finn , R. C. , Lam , R. and Zubieta , J. 2001 . Solid‐state coordination chemistry: structural influences of copper‐phenanthroline subunits on oxovanadium organophosphonate phases . Inorg. Chem. , 40 ( 15 ) : 3745 – 3754 .
- Arnold , D. I. and Clearfield , A. 2002 . Synthesis and crystal structures of copper(II) diphosphonatoalkanes: C4 and C5 . Chem. Mater. , 14 ( 5 ) : 2020 – 2027 .
- Gong , Y. , Tang , W. and Hu , C. W. 2006 . Transformation from a low‐dimensional framework to a high‐dimensional architecture based on different metal ions: syntheses, structures, and photoluminescences . Inorg. Chem. , 45 ( 13 ) : 4987 – 4995 .
- Nash , K. L. , Rogers , R. D. , Ferraro , J. and Zhang , J. 1998 . Lanthanide complexes with 1‐hydroxyethane‐1,1‐diphosphonic acid: Solvent organization and coordination geometry in crystalline and amorphous solids . Inorg. Chim. Acta. , 269 ( 2 ) : 211 – 223 .