Session | ||
MS-65: Graphs, tilings and crystal structures
Invited: Vladislav A. Blatov (Russia), Jean-Guillaume Eon (Brazil) | ||
Session Abstract | ||
Covalent crystals and supramolecular structures from MOFs to DNA nanostructures may be represented by combinatorial structures such as graphs and tilings. Considered topologically, the connectivity and symmetry properties of these structures are useful for design and classification. For example, combinatorial and topological properties such as coordination sequences or smallest rings are used in cataloguing crystal nets. Considered geometrically, the realizations of these structures have implications for functionality and analysis. Both topology and geometry underlie program design for crystallographic computation. This session will span the spectrum from the underlying theory of combinatorial, geometrical and topological structures used to model crystals to the development of heuristics and algorithms for crystal design and analysis. For all abstracts of the session as prepared for Acta Crystallographica see PDF in Introduction, or individual abstracts below. | ||
Introduction | ||
Presentations | ||
2:45pm - 2:50pm
Introduction to session 2:50pm - 3:20pm
Perceiving zeolite self-assembly within the natural tiling model 1Samara Center for Theoretical Materials Science (SCTMS), Samara National Research University, Samara, Russian Federation; 2Samara Center for Theoretical Materials Science (SCTMS), Samara State Technical University, Samara, Russian Federation External Resource: https://www.xray.cz/iucrv/vidp.asp?id=455
3:20pm - 3:50pm
Combinatorial aspects of Löwenstein’s rule 1Federal University of Rio de Janeiro, Rio de Janeiro, Brazil; 2Rural Federal University of Rio de Janeiro External Resource: https://www.xray.cz/iucrv/vidp.asp?id=456
3:50pm - 4:15pm
Layer Groups associated with 3-way 3-fold isonemal fabrics Ateneo De Manila University, Quezon City, Philippines External Resource: https://www.xray.cz/iucrv/vidp.asp?id=457
4:15pm - 4:40pm
A unique and continuous code of all periodic crystals University of Liverpool, Liverpool, United Kingdom External Resource: https://www.xray.cz/iucrv/vidp.asp?id=458
4:40pm - 5:05pm
Synthesis of magnetically frustrated oxides with double perovskite structure 1Institute for Solid-State and Materials Research, Dresden, Germany; 2Institute for Scintillation Materials NAS of Ukraine, Kharkiv, Ukraine External Resource: https://www.xray.cz/iucrv/vidp.asp?id=459
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