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1D and 2D solid state NMR investigations of the framework structure of As-synthesized AlPO4-14
Authors:C. A. Fyfe   H. Meyer zu Altenschildesche   K. C. Wong-Moon   H. Grondey  J. M. Chezeau
Affiliation:

a Department of Chemistry, University of British Columbia, 2036 Main Mall, Vancouver, B.C., Canada V6T 1Z1

b Laboratoire de Matériaux Minéraux, URA 428 CNRS, Ecole Nationale Supérieure de Chimie de Mulhouse, 3 rue Alfred Werner, Mulhouse Cedex F-68093, France

Abstract:
The framework structure of As-synthesized A1PO4-14 has been investigated with a combination of different one-dimensional 27Al and 31P solid state NMR techniques and 27Al/31P double resonance methods. The results are found to be fully consistent with the assumed structural model. 27Al MAS and DOR experiments at three different magnetic field strengths together with simulations show the presence of two tetrahedral sites, one pentacoordinated and one octahedral aluminum site. The 27Al quadrupolar coupling constants and the 31P isotropic chemical shifts of the tetrahedral sites correlate well with tetrahedral shear-strain parameters and mean P-O-A1 bond angles, respectively. These correlations allow one to assign all of the NMR resonances to specific T-sites in the proposed framework structure. The assignments are then further confirmed by the application of three different two-dimensional heteronuclear correlation methods (i.e., 27Al → 31P TEDOR, CP, and INEPT) which reveal the connectivities between AlOx and PO4 polyhedra. The two-dimensional INEPT experiment is applied here for the first time in the solid state.
Keywords:27Al nuclear magnetic resonance spectroscopy   31P nuclear magnetic resonance spectroscopy   Double resonance   Aluminophosphate   Molecular sieve
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