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Our Research
"The distant observer, who has only the progress of empirical metal technology in mind, will perhaps ask about the usefulness of such work. But in science we are also pursuing a policy of the long term, and we are striving for a comprehensive theory through basic research, because it brings us closer to the highest goal of all science. It consists in predicting new things. For metallurgy, the possibility will then open up for the planned synthesis of metallic construction and materials with predetermined properties. In this way, however, all basic research ultimately becomes purpose research in the long term."
Eduard Zintl, scientific keynote lecture at the "Reichsarbeitstagung der Deutschen Chemiker", June 10, 1938 in Bayreuth. (This article was translated automatically)
Solid State Spectroscopy
Spectroscopic techniques complement X-ray diffraction and reveal local features that help to better understand the underlying material properties. Research focuses on free electron pairs in oxides, type II multiferroics with high polarizability and lattice dynamics using Raman, FT-IR and neutron scattering.
Porous Materials
The research focus is on the temperature-dependent interaction between frameworks and templates in simple zeolitic framework compounds such as cancrinites and sodalites. In addition to the investigation of solid-state properties, the focus is on methodological developments in the field of simulation and data analysis.
Solid State Materials Application
The understanding of interaction between the crystal structure of solids and its material properties is of crucial interest in science and industry in a wide range of application areas. One field of interest is the interaction between crystal structure, average crystal size and the bandgap energy for visible light photocatalytic active materials.