L
Lucy M. Bull
Researcher at University of St Andrews
Publications - 3
Citations - 179
Lucy M. Bull is an academic researcher from University of St Andrews. The author has contributed to research in topics: Powder diffraction & Crystal structure. The author has an hindex of 3, co-authored 3 publications receiving 170 citations.
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Ssz-51-a new aluminophosphate zeotype: synthesis, crystal structure, nmr, and dehydration properties
TL;DR: In this paper, a new aluminophosphate zeotype framework structure, SSZ-51 (Al4(PO4)4F.C7N2H11·0.5H2O), has been prepared in the presence of 4dimethylaminopyridine as a structure-directing agent and a fluoride ion-mineralizing agent.
Journal ArticleDOI
An X-ray diffraction and MAS NMR study of the thermal expansion properties of calcined siliceous ferrierite.
Ivor Bull,Philip Lightfoot,Luis A. Villaescusa,Lucy M. Bull,Richard K. B. Gover,John S. O. Evans,Russell E. Morris +6 more
TL;DR: Powder and single-crystal X-ray diffraction, combined with MAS NMR measurements, has been used to study the thermal expansion of siliceous zeolite ferrierite as it approaches a second-order displacive phase transition from a low-symmetry (Pnnm) to a high-sympetry (Immm) structure.
Journal ArticleDOI
SSZ‐51 — A New Aluminophosphate Zeotype: Synthesis, Crystal Structure, NMR, and Dehydration Properties.
Abstract: A new aluminophosphate zeotype framework structure, SSZ-51 (Al4(PO4)4F.C7N2H11·0.5H2O), has been prepared in the presence of 4-dimethylaminopyridine as a structure-directing agent and a fluoride ion-mineralizing agent. The structure of the material was solved using single-crystal X-ray diffraction at a synchrotron source. It is closely related to the structure of SAPO-40 (AFR) and contains intersecting channels delimited by 8- and 12-membered ring windows. The occluded structure-directing agent and fluoride can be calcined to yield a material with appreciable microporosity. The calcination and dehydration of SSZ-51 was followed using variable temperature synchrotron X-ray powder diffraction and showed that the adsorption of water at low temperatures leads to a loss in long-range order of the framework. The long-range order of the framework is regained by dehydration at temperatures above 100 °C.