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CeNS Center for NanoScience LMU Ludwig-Maximilians-Universität München
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Research Cooperation

CeNS stimulates and supports research cooperation - crossing the borders between disciplines and different institutions. Shared knowledge and know-how as well as continuous discussions between the members of the network promote synergy effects which boost scientific progress. CeNS continuously provides a multitude of different occasions for the researchers to meet and exchange ideas during scientific meetings and social events. Furthermore, the scientific board awards funding for cooperation projects of scientists belonging to different CeNS groups.

The successful collaborative research work between different CeNS scientists from Physics, Chemistry, Biology, Pharmacy and Medicine leads to joint research papers published in high-impact journals. The following list shows a selection of recently published cooperative papers:

Native chemical ligation for conversion of sequence-defined oligomers into targeted pDNA and siRNA carriers

Can Yang Zhang, P. Kos, K. Müller, W. Schrimpf, C. Troiber, U. Lächelt, C. Scholz, D. Lamb, and E. Wagner - J. of Controlled Release, Vol. 180, pp. 42–50 (2014) more …

Single Cell Kinetics of Phenotypic Switching in the Arabinose Utilization System of E. coli

G. Fritz, J. Megerle, S. Westermayer, D. Brick, R. Heermann, K. Jung, J. Rädler, and U. Gerland - PLoS ONE, Vol. 9 (2), e89532 (2014) more …

Oriented Thin Films of a Benzodithiophene Covalent Organic Framework

D. Medina, V. Werner, F. Auras, R. Tautz, M. Dogru, J. Schuster, S. Linke, M. Döblinger, J. Feldmann, P. Knochel, and T. Bein - ACS Nano, Vol. 8 (4), pp 4042-4052 (2014) more …

Placing Individual Molecules in the Center of Nanoapertures

S. Heucke, F. Baumann, G. Acuna, P. Severin, S. Stahl, M. Strackharn, I. Stein †, P. Altpeter, P. Tinnefeld, and H. Gaub - Nano Lett., Vol. 14 (2), pp 391-395 (2014) more …

Hierarchical assembly of metal nanoparticles, quantum dots and organic dyes using DNA origami scaffolds

R. Schreiber, J. Do, E. Roller, T. Zhang, V. Schüller, P. Nickels, J. Feldmann, and T. Liedl - Nature Nanotechnology, Vol. 9 (1), pp. 74-78 (2014) more …

Identifying symmetry-protected topological order by entanglement entropy

W. Li, A. Weichselbaum, and J. von Delft - Phys. Rev. B, Vol. 88 (24), 245121 (2013) more …

Hierarchical assembly of metal nanoparticles, quantum dots and organic dyes using DNA origami scaffolds

R. Schreiber, J. Do, E.-M. Roller, T. Zhang, V. Schüller, P. Nickels, J. Feldmann, and T. Liedl - Nature Nanotechnology, doi:10.1038/nnano.2013.253, published online: 1 December 2013 more …

A fast analysis method to quantify nanoparticle uptake on a single cell level

A. Torrano, J. Blechinger, C. Osseforth, C. Argyo, A. Reller, T. Bein, J. Michaelis, and C. Bräuchle - Nanomedicine, Vol. 8 (11), pp. 1815-1828 (2013) more …

Electronic and plasmonic phenomena at graphene grain boundaries

Z. Fei, A. Rodin, W. Gannett, S. Dai, W. Regan, M. Wagner, M. Liu, A. McLeod, G. Dominguez, M. Thiemens, A. Castro Neto, F. Keilmann, A. Zettl, R. Hillenbrand, M. Fogler, and D. Basov - Nature Nanotechnology, doi:10.1038/nnano.2013.197, published online: 13 October 2013 more …

Microscopic origin of the ‘0.7-anomaly’ in quantum point contacts

F. Bauer, J. Heyder, E. Schubert, D. Borowsky, D. Taubert, B. Bruognolo, D. Schuh, W. Wegscheider, J. von Delft, and S. Ludwig - Nature, Vol. 501, pp. 73-78 (2013) more …