IRTG 1642 / Soft Matter Science: Concepts for the Design of Functional Materials

Soft matter science is without any doubt a growing and interdisciplinary field of research, attracting equal attention from chemists, physicists, and engineers. In part, this appeal comes from the astounding properties of “soft materials”, e.g., from their unique capacity to respond to external stimuli. Even weak stimuli may induce significant changes in behavior due to the “softness” and mesoscopic structuring of the material. While the softness results from weak interactions — comparable in strength to the thermal energy — between the constituents, mesoscopic structuring is often a consequence of self-assembly, i.e., of the spontaneous organization of matter into ordered arrangements much larger in size than the constituent molecules. Modern materials science increasingly exploits these distinctive features for the design of new materials. Many of today's interesting systems have multiple components, various interfaces, and complex effective interactions. Understanding the synergy of these factors and their impact on materials properties presents a great scientific challenge. Advances in this respect hold the promise of creating novel materials with a level of functionality similar to that existing in nature. The objective of the International Research Training Group (IRTG) “Soft Matter Science: Concepts for the Design of Functional Materials” between the universities of Freiburg and Strasbourg (with colleagues from Basel and Mulhouse participating) is to promote graduate education and scientific exchange in this modern field of research on soft matter materials.

Projektbeginn: 01.10.2010
Projektende: 30.09.2019

Prof. Günter Reiter, Prof. Jörg Baschnagel

Albert-Ludwigs-Universität Freiburg

Université Strasbourg, Université Mulhouse, Universität Basel

• DFG