Difference between revisions of "Jens Smiatek"
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Revision as of 14:31, 18 July 2012
Postdoc
| Office: | 203 |
|---|---|
| Phone: | +49 711 685-63757 |
| Fax: | +49 711 685-63658 |
| Email: | smiatek _at_ icp.uni-stuttgart.de |
| Address: | Dr. Jens Smiatek Institute for Computational Physics Universität Stuttgart Allmandring 3 70569 Stuttgart Germany |
Research interests
- Micro- and Nanoscale flow phenomena and boundary conditions (electrohydrodynamic effects,
structure formation, effects of confined geometries)
- Hydrodynamics (Effects of hydrodynamic interactions and hydrodynamic screening)
- Polyelectrolyte/Polymer/Colloidal Dynamics in dilute and dense solution and confined
geometries
- Coupling of electrostatic and hydrodynamic effects
- Properties of charged matter in presence of explicit ions
- Properties of polymer brushes (protein repellency, wetting behavior)
- Driven systems under strong non-equilibrium conditions
- Flow characteristics around rotating micromotors (synchronization effects, hydrodynamic
interactions)
- Properties of solvent/solute interactions (hydrophobic and hydrodynamic
interactions)
- Characteristics and stability of specific DNA structures like the DNA i-motif and the G-quadruplex
- General theory of molecular folding mechanisms (Hidden complexity, solvent properties,
free energy landscapes, rare events)
- Lipid bilayers: Interfacial behavior of water and interactions with compatible solutes
- Influence of osmolytes on proteins and membranes in aqueous solutions (structural
ordering of water, solubility)
- Thermodynamics, non-equilibrium effects, kinetics, statistical mechanics
- Method development (free energy landscapes, mesoscopic simulation methods,
microchannel boundary conditions)
- QM/MM simulations of osmolyte-solute interactions and cytosine-rich DNA strands
- sport statistics (especially soccer and team handball: prediction of match outcomes, characteristics of sports marks and performance of the teams)
Publications
[18] Smiatek, J.; Harishchandra, R. K.; Galla, H.-J. and Heuer, A.: Compatible solutes and their effects on DPPC lipid bilayers: a computer simulation study, submitted to Biophysical Chemistry (2012)
[17] Smiatek, J. and Heuer, A.: A statistical view on team handball results: home advantage, team fitness and prediction of match outcomes, submitted to J. Quant. Anal. Sports (2012)
[16] Smiatek, J.; Wagner, H.; Hentschel C.; Chi, L.; Studer, A. and Heuer, A.: Coat thickness dependent protein adsorption at hydrophobic polymer brushes - a combined experimental and theoretical study, submitted to Macromolecules (2012)
[15] Hentschel, C.; Wagner, H.; Smiatek, J.; Heuer, A.; Fuchs, H.; Zhang, X.; Studer, A. and Chi, L.: AFM-based force spectroscopy on polystyrene brushes: Effect of brush thickness on protein adsorption, submitted to Langmuir (2012)
[14] Smiatek, J.; Janssen-Mueller, D.; Friedrich, R. and Heuer, A.: Hidden complexities in the unfolding mechanism of a cytosine-rich DNA strand, submitted to Physica A (2012)
[13] Smiatek, J.; Galla, H.-J. and Heuer, A.: Molecular Dynamics simulations of macromolecules in presence of compatible solutes, submitted to J. Phys. Chem. B. (2012)
[12] Meinhardt, S.; Smiatek, J.; Eichhorn, R. and Schmid, F.: Separation of chiral particles in micro- or nanofluidic channels, Phys. Rev. Lett. 108, 214504 (2012)
[11] Smiatek, J.; Harishchandra, R. K.; Rubner, O.; Galla, H.-J. and Heuer A.: Properties of compatible solutes in aqueous solution, Biophysical Chemistry 160, 62 (2012)
[10] Smiatek, J. and Schmid, F.: Mesoscopic simulation methods for studying flow and transport in electric fields in micro- and nanochannels, invited chapter for Advances in Microfluidics, edited by Ryan T. Kelly, InTech, DOI: 10.5772/2225 (2012)
[9] Smiatek, J.; Liu, D. and Heuer, A.: High temperature unfolding simulations of a single-stranded DNA i-motif, Curr. Phys. Chem. 2, 115 (2012)
[8] Smiatek, J.; Chen, C.; Liu, D. and Heuer, A.: Stable conformations of a single-stranded deprotonated DNA i-motif, J. Phys. Chem. B 115, 13788 (2011)
[7] Smiatek, J. and Schmid, F.: Mesoscopic simulations of electroosmotic flow and electrophoresis in nanochannels, Comp. Phys. Comm. 182, 1941 (2011)
[6] Smiatek, J. and Heuer, A.: Calculation of free energy landscapes: a histogram reweighted metadynamics approach, J. Comp. Chem. 32, 2084 (2011)
[5] Smiatek, J. and Schmid F.: Mesoscopic simulations of polyelectrolyte electrophoresis in nanochannels, p. 53 in High Performance Computing in Science and Engineering '10: Transactions of the High Performance Computing Center, edited by Nagel, W. E.; Kröner, D. B.; Resch, M. M.; Springer, Berlin Heidelberg (2011)
[4] Smiatek, J. and Schmid, F.: Polyelectrolyte electrophoresis in nanochannels: a Dissipative Particle Dynamics simulation, J. Phys. Chem. B 114, 6266 (2010)
[3] Smiatek, J.; Sega, M.; Schiller, U. D.; Holm, C. and Schmid, F.: Mesoscopic simulations of the counterion-induced electro-osmotic flow: A comparative study, J. Chem. Phys. 130, 244702 (2009)
[2] Smiatek J.: Mesoscopic simulations of electrohydrodynamic phenomena, PhD thesis, available at http://bieson.ub.uni-bielefeld.de/volltexte/2009/1475/pdf/Diss.pdf, Bielefeld University, Germany (2009)
[1] Smiatek, J.; Allen, M. P. and Schmid, F.: Tunable-slip boundaries for coarse-grained simulations of fluid flow, Europ. Phys. J. E 26, 115 (2008)