Chemistry & Materials at ISTA comprises theoretical and experimental approaches. Groups in chemistry take advantage of the NMR facilities available at ISTA.
Experimental chemistry groups conduct research at the interface of organic chemistry and materials science with a focus on nanoscience and supramolecular chemistry (Klajn), and are working in synthetic organic chemistry at the interfaces to materials sciences with a focus on heterogeneous photocatalysis using organic and inorganic semiconductors (Pieber).
Groups on the interfaces to biochemistry are interested in the physico-chemical aspects of protein dynamics and interactions (Schanda), self-organization of protein systems (Loose), how the interplay between transcription factors and the histone code influences genome regulation (Michael), or structural DNA nanotechnology (Praetorius).
Experimental research is carried out in the area of physical chemistry such as functional nanomaterials (Ibáñez), materials electrochemistry (Freunberger), powered microparticle behavior (Palacci), or quantum electrodynamics (Baykusheva).The Venkataraman group is collaborating with synthetic chemists and theoretical solid state physicists to understand matter at the nanoscale.
On the theory side, research areas include work on the intersection of soft matter physics, biology and physical chemistry, to study physical mechanisms underlying biological processes at the nanoscale (Saric), or work on computational protein design (Praetorius).
COMPLETE CHEMISTRY & MATERIALS RESEARCH GROUP DETAILS ON ISTA’S MAIN SITE:
- Ultrafast Quantum Phases and Spectroscopy
DENITSA BAYKUSHEVA - Materials Electrochemistry
STEFAN FREUNBERGER - Functional Nanomaterials
MARIA IBáñEZ - Supramolecular Chemistry
RAFAL KLAJN - Self-Organization of Protein Systems
MARTIN LOOSE - Genome Regulation and Biological Timekeeping
ALICIA MICHAEL - Materiali Molli
Jérémie PALACCI
You can also find more information on upcoming Talks, Events and Courses on the dedicated Physics, Chemistry and Maths site physicsandbeyond.