RSA CE&C 2015-2021 Group descriptions

Molecular Systems and Materials Chemistry (MSMC) 59 PHYSICAL CHEMISTRY Section leader Prof .dr.ir. R. (Remco) Tuinier Scientific staff FTE Full professors Prof.dr. R.A.T.M. (Rolf) van Benthem 0.2 Prof. dr.ir . C.F.J. (Jaap) den Doelder, PDEng 0.2 Prof .dr.ir. R. (Remco) Tuinier 1.0 Associate professors Dr. A.C.C. (Catarina) Esteves 1.0 Dr.ir. I.K. (Ilja) Voets ( until 02-2018, appointed as full professor, started her own research group in the department ) 0.5 Assistant professors Dr. H. (Heiner) Friedrich ( since 07-2019 ) 1.0 Dr. M. (Mark) Vis ( since 10-2019 ) 1.0 Mission The Physical Chemistry (PC) group is a leading research group at the intersection of theoretical and experimental physical chemistry and the fields of polymeric and colloid science.Our mission is two-fold. First, to advance the state of the art of physical chemistry and, in particular, soft matter science. Second, to develop a scientific basis for sustainable, functional and responsive materials that are urgently needed to solve societal challenges related to sustainability, the energy transition and health. We collaborate with other disciplines in the Departments of Chemical Engineering & Chemistry, Applied Physics and Mechanical Engineering to leverage our knowledge with dedicated synthetic, analytical and physical-chemical expertise. Our research program establishes a strong link between experimental and theoretical aspects as well as computer simulations to gain a deeper understanding of the physical and chemical phenomena involved and the building of competences to design and manufacture advanced functional materials. As the link between teaching and research is essential, we offer high-level physical and materials chemistry education at TU/e. Research themes The research in the PC group focuses on gaining a fundamental understanding of the physical and chemical properties and processes that are relevant to the behavior of polymers and colloid mixtures in bulk and at interfaces, controlling their deposition and functionality on solid surfaces and making their use sustainable via polymer recycling using green (eutectic) solvents and other approaches. We study the aforementioned physical-chemical properties and processes by combining experiments (synthesis and assembly of polymers and (bioinspired) colloids, (cryo, in-situ, electron, light) microscopy, (X-ray, neutron, light) scattering, interfacial methods, rheology, (3D) printing, theory (mean-field computations on bulk phase behavior and interfacial properties, colloidal interactions) and computer simulations (MD, DPD)). The developed methodologies and insights on the relationships between phase stability, self-assembly, morphology, particle size, rheology and surface lubricity/hydrophobicity/hydrophilicity can be used to understand, improve and develop products. Of particular interest is the design of molecules, particles and interfaces to perform specific functions and the development of novel technologies for producing ingredients and making products and related processes sustainable. Our competencies contain the following expertise areas: 1. The characterization of interfaces. 2. The synthesis and characterization of colloidal particles and mesoscopic structures. 3. Colloidal interactions and stability. 4. Micellar systems and self-assembly, complexation and encapsulation.