Difference between revisions of "Jens Smiatek"

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(Publications)
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My profile at [http://scholar.google.de/citations?user=-RgaRekAAAAJ "Scholar Google"]
 
My profile at [http://scholar.google.de/citations?user=-RgaRekAAAAJ "Scholar Google"]
  
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:* Smiatek, J.; Hansen, N.; Kästner, J.
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:: '''"Free energy calculation methods and rare event sampling techniques for bimolecular simulations"'''
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::accepted for publication in ''Simulating Enzyme Reactivity'' (RSC Publishing) (2016)
 
<bibentry>
 
<bibentry>
 
sanchez16a,
 
sanchez16a,

Revision as of 12:27, 10 March 2016

Jens neu1.jpg
Dr. Jens Smiatek
Group leader
Office:1.032
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

  • Biomolecules and specific DNA structures: i-motif and g-quadruplex
  • Solvent effects
  • Free energy landscapes
  • Solvent-solute interactions
  • Osmolytes and co-solutes
  • Electrohydrodynamics
  • Polyelectrolytes and interactions with ions
  • Microscale flows
  • Method development

Curriculum Vitae

A detailed CV can be found here.

Publications

My profile at "Scholar Google"

  • Smiatek, J.; Hansen, N.; Kästner, J.
"Free energy calculation methods and rare event sampling techniques for bimolecular simulations"
accepted for publication in Simulating Enzyme Reactivity (RSC Publishing) (2016)


Submitted Manuscripts

  • Ribeiro Tzaras, E.; Weik, F.; Holm, C.; Smiatek, J.
    Polymer translocation through thin nano pores: An unbiased perspective on free energy landscapes and essential dynamics, submitted (2016)
  • Smiatek, J.; Riedl, D.; Heuer, A.
    Statistical properties of soccer, basketball and handball - A quantitative comparison, submitted (2016)
  • Smiatek, J.; Hansen, N.; Kästner, J.
    Free energy calculation methods and rare event sampling techniques for biomolecular simulations, submitted (2016)

Multimedia

  • High temperature unfolding dynamics of a single-stranded deprotonated DNA i-motif