SYNTHESIS AND CHARACTERIZATION OF A NEW 2-DIMENSIONAL ALUMINOPHOSPHATE LAYER AND STRUCTURAL DIVERSITY IN ANIONIC ALUMINOPHOSPHATES WITH AL2P3O123- STOICHIOMETRY

A new two-dimensional aluminophosphate layer [Al2P3O10(OH)(2)][C6NH8] (compound 1) has been prepared from an alcoholic system using 4-methyl pyridine (C6NH7) as a template. The as-synthesized product is characte rized by powder X-ray diffraction, dynamic thermogravimetric, and P-31 -, Al-27-, and C-13 magic-angle spinning (MAS) NMR analyses. The struc ture has been solved by single-crystal X-ray diffraction analysis. Com pound 1 crystallized in the monoclinic space group P2(1)/c (no. 14), w ith a = 8.686 (3) Angstrom, b = 21.240 (3) Angstrom, c = 8.799 (2) Ang strom, beta = 113.23 (3)degrees, and Z = 4. The inorganic layers are c onstructed from alternating aluminum units (AlO4 and AlO5) and phospho rus units [PO4, PO3(OH), PO2(=O)(OH)] and are featured by rows of edge -sharing bridged six-membered rings (6MRs) and zigzag four rings (4MRs ). The layers are held with each other through strong H-bondings betwe en the terminal oxygens attached to the 2-connected phosphate groups i n adjacent layers. The organic ammonium cations (C6NH8+) are located i n the large cavities between the interlayer regions. The structural fe atures and relationships in the anionic aluminophosphates with Al2P3O1 23- stoichiometry, including compound 1 and previously reported compou nds, are discussed. Furthermore, new two-dimensional (2-D) networks ha ve been proposed on the basis of the discovered building rules for alu minophosphates with Al2P3O123- stoichiometry.