Friedrich C. Simmel
Friedrich C. Simmel
Professor of Physics, TU München
E-mail confirmado em
Citado por
Citado por
A DNA-fuelled molecular machine made of DNA
B Yurke, AJ Turberfield, AP Mills, FC Simmel, JL Neumann
Nature 406 (6796), 605-608, 2000
DNA-based self-assembly of chiral plasmonic nanostructures with tailored optical response
A Kuzyk, R Schreiber, Z Fan, G Pardatscher, EM Roller, A Högele, ...
Nature 483, 311-314, 2012
Synthetic lipid membrane channels formed by designed DNA nanostructures
M Langecker, V Arnaut, TG Martin, J List, S Renner, M Mayer, H Dietz, ...
Science 338 (6109), 932-936, 2012
Nucleic acid based molecular devices
Y Krishnan, FC Simmel
Angewandte Chemie International Edition 50 (14), 3124-3156, 2011
Single-molecule kinetics and super-resolution microscopy by fluorescence imaging of transient binding on DNA origami
R Jungmann, C Steinhauer, M Scheible, A Kuzyk, P Tinnefeld, FC Simmel
Nano letters 10 (11), 4756-4761, 2010
DNA fuel for free-running nanomachines
AJ Turberfield, JC Mitchell, B Yurke, AP Mills, MI Blakey, FC Simmel
Physical Review Letters 90 (11), 118102-118102, 2003
Anomalous Kondo-effect in Quantum Dot at non-zero bias
F Simmel, RH Blick, JP Kotthaus, W Wegscheider, M Bichler
Physical Review Letters 83, 804-807, 1999
Distance dependence of single-fluorophore quenching by gold nanoparticles studied on DNA origami
GP Acuna, M Bucher, IH Stein, C Steinhauer, A Kuzyk, P Holzmeister, ...
ACS nano 6 (4), 3189-3195, 2012
DNA nanodevices
FC Simmel, WU Dittmer
Small 1 (3), 284-299, 2005
A DNA‐based machine that can cyclically bind and release thrombin
WU Dittmer, A Reuter, FC Simmel
Angewandte Chemie International Edition 43 (27), 3550-3553, 2004
DNA origami as a nanoscopic ruler for super‐resolution microscopy
C Steinhauer, R Jungmann, TL Sobey, FC Simmel, P Tinnefeld
Angewandte Chemie International Edition 48 (47), 8870-8873, 2009
Switching the conformation of a DNA molecule with a chemical oscillator
T Liedl, FC Simmel
Nano letters 5 (10), 1894-1898, 2005
Quantitative analysis of single particle trajectories: mean maximal excursion method
V Tejedor, O Bénichou, R Voituriez, R Jungmann, F Simmel, ...
Biophysical journal 98 (7), 1364-1372, 2010
Timing molecular motion and production with a synthetic transcriptional clock
E Franco, E Friedrichs, J Kim, R Jungmann, R Murray, E Winfree, ...
Proceedings of the National Academy of Sciences 108 (40), E784-E793, 2011
Using DNA to construct and power a nanoactuator
FC Simmel, B Yurke
Physical Review E 63 (4), 041913, 2001
Periodic DNA nanotemplates synthesized by rolling circle amplification
S Beyer, P Nickels, FC Simmel
Nano Letters 5 (4), 719-722, 2005
A DNA-based molecular device switchable between three distinct mechanical states
FC Simmel, B Yurke
Applied Physics Letters 80 (5), 883-885, 2002
Diversity in the dynamical behaviour of a compartmentalized programmable biochemical oscillator
M Weitz, J Kim, K Kapsner, E Winfree, E Franco, FC Simmel
Nature Chemistry 6 (4), 295-302, 2014
DNA-based nanodevices
T Liedl, TL Sobey, FC Simmel
Nano Today 2 (2), 36-41, 2007
Controlled Trapping and Release of Quantum Dots in a DNA‐Switchable Hydrogel
T Liedl, H Dietz, B Yurke, F Simmel
Small 3 (10), 1688-1693, 2007
O sistema não pode executar a operação agora. Tente novamente mais tarde.
Artigos 1–20