Technical University Munich; Home About us People Simmel, Friedrich. +49 89 289-11611 Room ZNN: 2.016 E-Mail simmel@tum.de Links Homepage Page in TUMonline Group

"In this condensed state they take on a nearly crystalline structure," says co-author and TU professor Friedrich Simmel. Nano hairs The international team led by Simmel and his Israeli colleague Roy Bar-Ziv managed to bond DNA molecules only one thousandth of a millimeter long (i.e. several thousand base pairs long each) tightly to nanostructures of varying widths on a chip.

This article is a preprint and has Biodesign Institute, Arizona State University. DNA Nanosytems: Programmed Function. Friedrich Simmel simmel@tum.de. Dept of Physics, Technical University Chair of Physics of Synthetic Biology at TUM. The research conducted by Prof.

Application: Call is closed. PROJECT NO. 7 – PhD POSITION. Project title: Operation of DNA/RNA nanodevices in living cells. Prof.

"In this condensed state they take on a nearly crystalline structure," says co-author and TU professor Friedrich Simmel. Nano hairs The international team led by Simmel and his Israeli colleague Roy Bar-Ziv managed to bond DNA molecules only one thousandth of a millimeter long (i.e. several thousand base pairs long each) tightly to nanostructures of varying widths on a chip.

Application deadline: Call is closed. Application: Call is closed. PROJECT NO. 7 – PhD POSITION. Project title: Operation of DNA/RNA nanodevices in living cells.

Prof. Simmel is an elected member of acatech, Germany's National Academy of Science and Engineering,and Chair of Physics of Synthetic Biological Systems at TUM. His research is focused on the design of biochemical circuits and DNA-based nanostructures and systems, where he has contributed with important advances on the field.

ECCSB 2 Key Scientists at the Technical University of Munich (TUM) have developed a novel propulsion technology for nanorobots: Electric fields drive nano-robot arms a hundred thousand times faster than with the biochemical processes used to date. TUM Professor Friedrich Simmel, co-coordinator of the Excellence Cluster Nanosystems Initiative Munich, explains: "We have not tested this yet with living cells, but experiments with lipid vesicles show that our synthetic device will bind to a bilayer lipid membrane in the right orientation, so that the stem both penetrates the membrane and holds at the surface, forming a pore." Friedrich C. Simmel (born 1970) is a German biophysicist and professor at the Technical University Munich.He is a researcher in the field of DNA nanotechnology and is best known for his work on DNA nanomachines and dynamic DNA-based systems. Prof. Simmel is an elected member of acatech, Germany's National Academy of Science and Engineering,and Chair of Physics of Synthetic Biological Systems at TUM. His research is focused on the design of biochemical circuits and DNA-based nanostructures and systems, where he has contributed with important advances on the field. TUM Institute for Nanoscience and Nanotechnology. Technische Universität München James-Franck-Straße 1 D-85748 Garching Nine scientists from the Technical University of Munich (TUM) won out in the latest round of ERC grants. The projects receiving funding are in the disciplines Medicine, Physics and Informatics and deal with a highly varied range of topics such as investigation of autoimmune diseases, innovative algorithms and bio-nanotechnology.

Since 2013, Prof. Simmel has been a member of acatech - the National Academy of Science and Engineering. Technical University Munich; Home About us People Simmel, Friedrich. +49 89 289-11611 Room ZNN: 2.016 E-Mail simmel@tum.de Links Homepage Page in TUMonline Group Prof. Friedrich Simmel Research Field Our goal is the realization of self-organizing molecular systems that are able to respond to their environment, compute, move, take action. Seit 2007 ist er Ordinarius für Experimentalphysik (Physik Synthetischer Biosysteme) an der TUM. Im Jahre 2013 wurde Prof. Simmel in die acatech - Deutsche Akademie der Technikwissenschaften aufgenommen.
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simmel@ph.tum.de: Telephone: +49 89 289 11610: Fax: +49 89 289 11612 Find more topics on the central web site of the Technical University of Munich: www.tum.de Prof.

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Biodesign Institute, Arizona State University. DNA Nanosytems: Programmed Function. Friedrich Simmel simmel@tum.de. Dept of Physics, Technical University

Furthermore, it received special awards in the categories [more] 02.10.2017 He studied Physics and Biophysics at TUM. Before serious science got in the middle of his life, he used to do long jump. Now in his free time, he goes hiking and climbing. He has no clue about cloning, but is always willing to help us with any problem we have. Friedrich C. Simmel Simultaneous binding of molecules by multiple binding partners is known to strongly reduce the apparent dissociation constant of the corresponding molecular complexes, and can We came up with the idea of dropping biochemical nanomachine switching completely in favour of the interactions between DNA structures and electric fields,” explains TUM researcher Simmel, who is also the co-coordinator of the Excellence Cluster Nanosystems Initiative Munich (NIM).