TY - JOUR
T1 - An electron diffraction, XRD and lattice dynamical investigation of the average structure and rigid unit mode (RUM) modes of distortion of microporous AlPO4-5
AU - Liu, Yun
AU - Withers, Ray L.
AU - Norén, Lasse
PY - 2003/3/1
Y1 - 2003/3/1
N2 - Electron diffraction is used to investigate the unit cell and space group symmetry of the average structure of AlPO4-5 as well as the zero frequency rigid unit mode (RUM) modes of distortion thereof. Despite recent reports to the contrary, absolutely no evidence could be found to justify the lowering of the average structure space group symmetry of AlPO4-5 from P6cc. Direct experimental evidence (in the form of a highly structured, characteristic diffuse intensity distribution) is found, however, for the (presumably dynamic) excitation of numerous zero frequency RUM modes of distortion of the ideal AlPO4-5 tetrahedral framework structure. The lattice dynamic program CRUSH is used to confirm the existence of these zero frequency RUM modes of distortion as well as to show that they are an intrinsic, predictable property of the AlPO4-5 tetrahedral framework structure. Six zero frequency RUM modes of distortion are predicted to exist for modulation wave-vectors of the form [hk0]*, 4 for wave-vectors of the form [00]* and a single RUM for wave-vectors falling on a curved (hyperbolic) distribution. These RUM modes of distortion involve tetrahedral rotation about in-plane rotation axes. Their simultaneous (presumably dynamic) excitation is necessary to understand the apparent linear Al-O-P angles in average structure refinements.
AB - Electron diffraction is used to investigate the unit cell and space group symmetry of the average structure of AlPO4-5 as well as the zero frequency rigid unit mode (RUM) modes of distortion thereof. Despite recent reports to the contrary, absolutely no evidence could be found to justify the lowering of the average structure space group symmetry of AlPO4-5 from P6cc. Direct experimental evidence (in the form of a highly structured, characteristic diffuse intensity distribution) is found, however, for the (presumably dynamic) excitation of numerous zero frequency RUM modes of distortion of the ideal AlPO4-5 tetrahedral framework structure. The lattice dynamic program CRUSH is used to confirm the existence of these zero frequency RUM modes of distortion as well as to show that they are an intrinsic, predictable property of the AlPO4-5 tetrahedral framework structure. Six zero frequency RUM modes of distortion are predicted to exist for modulation wave-vectors of the form [hk0]*, 4 for wave-vectors of the form [00]* and a single RUM for wave-vectors falling on a curved (hyperbolic) distribution. These RUM modes of distortion involve tetrahedral rotation about in-plane rotation axes. Their simultaneous (presumably dynamic) excitation is necessary to understand the apparent linear Al-O-P angles in average structure refinements.
KW - Characteristic diffuse distribution
KW - Correlated tetrahedral rotation
KW - Dynamical disorder
KW - Microporous AlPO-5
UR - http://www.scopus.com/inward/record.url?scp=0038372380&partnerID=8YFLogxK
U2 - 10.1016/S1293-2558(03)00049-9
DO - 10.1016/S1293-2558(03)00049-9
M3 - Article
SN - 1293-2558
VL - 5
SP - 427
EP - 434
JO - Solid State Sciences
JF - Solid State Sciences
IS - 3
ER -