Characterizing modulated structures with first-principles calculations: a unified superspace scheme of ordering in mullite

Abstract: The benefit of computational methods applying density functional theory for the description and understanding of modulated crystal structures is investigated. A method is presented which allows one to establish, improve and test superspace models including displacive and occupational modulation functions from first-principles calculations on commensurate structures. The total energies of different configurations allow one to distinguish stable and less stable structure models. The study is based on a series of… Show more

“…This aluminium silicate exhibits both commensurate and incommensurate vacancy-modulated structures as a function of composition. By interweaving density-functional theory (DFT) with superspace refinement of synchrotron single-crystal diffraction data, Klar and coworkers produced models that explain both types of phases over a broad composition range and set an example of how to approach analogous systems (Klar et al, 2019). These four presentations by students and young investigators illustrate exciting directions in aperiodic research, but many others were also represented at the conference and in the Proceedings.…”

Aperiodic order coming of age: from inorganic materials to dynamic protein superstructures

“…This aluminium silicate exhibits both commensurate and incommensurate vacancy-modulated structures as a function of composition. By interweaving density-functional theory (DFT) with superspace refinement of synchrotron single-crystal diffraction data, Klar and coworkers produced models that explain both types of phases over a broad composition range and set an example of how to approach analogous systems (Klar et al, 2019). These four presentations by students and young investigators illustrate exciting directions in aperiodic research, but many others were also represented at the conference and in the Proceedings.…”

Aperiodic order coming of age: from inorganic materials to dynamic protein superstructures