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Abstract
We report the synthesis of hydrogen-bonded frameworks prepared from guanidinium, bis-amidinium or tetra-amidinium cations, and diphosphonate or tetraphosphonate anions. The frameworks are assembled by both charge-assisted amidinium⋅⋅⋅phosphonate and anti-electrostatic phosphonate⋅⋅⋅phosphonate hydrogen bonds, of which the phosphonate⋅⋅⋅phosphonate interactions are notably shorter. Frameworks prepared from the tetrahedral tetraphosphonate building block contain relatively large water-filled channels, but lose crystallinity upon drying. The crystal structure of a guanidinium⋅⋅⋅diphosphonate salt has an unusual structure related to classic Ward guanidinium⋅⋅⋅sulfonate frameworks but with an additional cation/solvent layer. This material includes toluene guests, which are held strongly within the crystal lattice.
Supplementary materials
Title
Supporting Information
Description
NMR and IR spectra, PXRD and TGA data, details of successful and unsuccessful crystallisations, details of X-ray crystallography including hydrogen bonding parameters.
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