Design & Materiainformatics
|
|
|
Given the vast number of structures that could result from assembly of molecular shapes, how do we as designers (a) identify the most important topologies that should be expected to form, (b) determine how are they distributed among known crystal structures, and (c) find means of interpreting, organizing, and classifying this data for the purpose of developing systems of grammar and taxonomy for the design of extended structures, the rationalization of existing structures, and the prediction of new ones.
Recent Leading Publications:
Three-periodic nets and tilings: edge-transitive bimodal structures, O. Delgado-Friedericks,
M..O'Keefe, O. M. Yaghi, Acta Cryst., 2006, 62(5), 350-355.
What do we know about three-periodic nets? O. Delgado-Friedrichs, M. D. Foster,
D. M. Prosperio, J. P. Treacy, O. M. Yaghi, J. Solid State Chem., 2005, 178,
2533-2554
Reticular chemistry: occurrence and taxonomy of nets, and grammar for the
design of frameworks, N. Ockwig, O. D. Friedrichs, M. O'Keeffe, O. M. Yaghi,
Acc. Chem. Res., 2005, 38, 176.
Three-periodic nets and tilings: minimal nets. C. Bonneau, O. Friedrichs,
M. O'Keeffe, O. M. Yaghi, Acta Cryst., 2004, A60: 517.
Three-periodic nets and tilings: regular and quasiregular nets, O. Friedrichs,
M. O'Keeffe, O. M. Yaghi, Acta Cryst., 2003, A59: 22.
Three-periodic nets and tilings: semiregular nets, O. Friedrichs, M. O. O'Keeffe,
O. M. Yaghi,
Acta Cryst., 2003, A59: 515.
|
|
