Lynne B. McCusker
ETH Zurich
245 Papers
2.1K Citations
Lynne B. McCusker is an academic researcher from ETH Zurich. The author has contributed to research in topics: Vertex (computer graphics) & Powder diffraction. The author has an hindex of 39, co-authored 239 publications. Previous affiliations of Lynne B. McCusker include University of Ljubljana & Ludwig Maximilian University of Munich.
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Papers
Rietveld refinement guidelines
TL;DR: A set of general guidelines for structure refinement using the Rietveld (whole profile) method has been formulated by the International Union of Crystallography Commission on Powder Diffraction.
A synthetic gallophosphate molecular sieve with a 20-tetrahedral-atom pore opening
TL;DR: A cubic gallophosphate with a pore opening comprising 20 tetrahedrally coordinated atoms in the shape of a four-leafed clover was reported in this paper. But the structure of the clover is not known.
720
Structure determination from powder diffraction data
William I. F. David,Kenneth Shankland,Lynne B. McCusker,Christian Baerlocher +3 more
- 01 Jan 2006
TL;DR: In this article, a review of structure determination from powder diffraction data is presented, with particular emphasis on algorithmic developments and the successes and limitations of the technique, as well as the potential for the combined use of X-ray and Neutron Diffraction data for structure verification.
397
Structure of the polycrystalline zeolite catalyst IM-5 solved by enhanced charge flipping.
Christian Baerlocher,Fabian Gramm,Lars Massüger,Lynne B. McCusker,Zhanbing He,Sven Hovmöller,Xiaodong Zou +6 more
TL;DR: A charge-flipping structure-solution algorithm is presented, extended to facilitate the combined use of powder diffraction and electron microscopy data, and elucidated the complex structure of zeolite catalyst IM-5, with 24 topologically distinct silicon atoms and an unusual two-dimensional medium-pore channel system.
264
Nomenclature of structural and compositional characteristics of ordered microporous and mesoporous materials with inorganic hosts
TL;DR: In this article, a system of terms applicable to ordered microporous and mesoporous materials is proposed, and rules for writing a standardized crystal chemical formula for such materials are presented.
232