Research Group of Prof. H.-H. Limbach

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RESEARCH GROUP OF PROF. H.-H. LIMBACH

ACTUAL RESEARCH AREA OF PROF. H.-H. LIMBACH
Abstract The current research program is focused on the design and the study by NMR spectroscopy of the structure and dynamics of isotopically labeled molecular model systems for proton and hydride transfer. The range between small organic molecules embedded in liquids, solids and surfaces, modified enzymes, oligonucleotides and transition metal hydrides is covered. The whole instrumentarium of variable temperature liquid and solid state NMR spectroscopy is applied. The aim is to measure kinetic, equilibrium and geometric isotope and tunnel effects of hydrogen transfer in high- and low-barrier hydrogen bonds and in the coordination sphere of transition metal catalysts, and to model the results theoretically. A substantial part of the work is done in collaboration with other research groups specialized in other areas of spectroscopy, synthetic and theoretical chemistry, supramolecular-, polymer- and biochemistry, material and surface science. Topics for research laboratory stages Physical-chemical research regarding the structure and dynamic of molecules in condensed phases via NMR-spectroscopy; organic molecule crystals and glass, amorph solids, polymers; reaction kinetics in sol.; kinetic isotope effects; isotope labelling.In the future: Low temperature liquids, interfaces, colloids; structure and dynamic of biomolecules in liquids and solid states; biological objects. Skills acquired during the laboratory stage Synthesis of isotopically labeled compounds, liquid and solid state NMR spectroscopy at low temperatures, NMR as a tool for the study of kinetic processes, especially proton transfer, NMR-lineshape analysis, ab initio calculations Further Reading List of Publications

ACTUAL RESEARCH AREA OF DR. G. BUNTKOWSKY Abstract Principal research area is the study of complex heterogeneous systems with solid state NMR spectroscopy. For the characterization of heterogeneous and/or amorphous materials a technique is needed which on one hand is able to look beyond the surface of the material and which on the other hand does not depend on regular (crystalline) order, like most diffraction techniques. The experimental technique which is capable for these studies is solid state NMR spectroscopy, which allows to directly investigate interactions between different compounds (for example host/guest complexes) in a heterogeneous system, which are reflected in the local spatial structure of the host guest complex (aggregate). By suitable combination of different isotopes (selective isotope labelling) it is possible to map out the interesting structures in the aggregate. Primarily different double resonance and triple resonance solid state NMR techniques (REDOR,TEDOR,SEDOR, Multiple Quantum NMR, CP- MAS (cross polarization and magic angle spinning) spectroscopy, tensor correlation, etc.) are used for the analysis of magnetic dipolar interactions in the interesting compounds. Other research activities include low temperature NMR spectroscopy in particular ²H solid state NMR spectroscopy of h-bound di-deuterium metal complexes to look for ²H-NMR tunneling and theoretical studies of spin dynamics. For the future it is planned to start with field gradient NMR (either switched field gradient or static gradient) for diffusion measurements in porous systems. Most experiments are run on a home built three channel solid state NMR spectrometer operated at 7Tesla. Topics for research laboratory stages Study of ¹³C- ¹⁵N dipolar interactions in selectively labelled organic compounds. ²H-NMR investigations of hapdo-bound di-deuterium metal complexes. Skills acquired during the laboratory stage A solid knowledge of experimental solid state NMR on a home built spectrometer (i.e. not a black box) is acquired. Depending on the chosen topic (VT and low temperature solid state NMR or study of dipolar interactions in solids) additional skills are acquired either in the handling of a He flow cryostat system and spin echo techniques for measuring ²H-NMR spectra and relaxation times at low temperatures or in modern MAS techniques for dipolar recoupling. Further Reading List of Publications

ACTUAL RESEARCH AREA OF DR. K. WEISZ Abstract NMR studies on the structure and stability of nucleic acids und proteins. Topics for research laboratory stages Synthesis of oligonucleotides with non-natural and isotope-labeled nucleosides. NMR studies on hydrogen bonds in nucleic acids 3D structure determination of antisense and antigene oligonucleotides Skills acquired during the laboratory stage Nucleoside chemistry, preparation and purification of oligonucleotides, multi-dimensional homo- and heteronuclear NMR spectroscopy Further Reading List of Publications