Difference between revisions of "Hauptseminar Theorie und Simulation der weichen Materie WS 2014/2015/Coarse-grained simulation models: What is left to be learned"

From ICPWiki
Jump to navigation Jump to search
 
Line 19: Line 19:
 
== Literature ==
 
== Literature ==
  
<bibentry> brini13a, wang09h, baron07a,roy10a, roy10b, breitsprecher14a, breitsprecher14b, breitsprecher12a </bibentry>
+
<bibentry> brini13a, wang09h, baron07a,roy10a, roy10b, breitsprecher14a, breitsprecher14b, breitsprecher12a, szuttor13a </bibentry>
Kai Szuttor Bsc thesis, 2013
 

Latest revision as of 10:20, 16 January 2015

"{{{number}}}" is not a number.
Date
Topic
Coarse-grained models for ionic liquids
Speaker
Kai Philippi
Tutor
Konrad Breitsprecher, Christian Holm

Contents

  • Intro: What is coarse-graining and who needs it?
  • CG and multiscale approaches.
  • Systematic versus heuristic methods to obtain coarse-grained models
  • What is the range of validity of a CG model, and how to compare it to experiments/ab-initio methods?
  • A specific CG-Model from Roy and Maroncelli (RM) : The ionic liquid BMIM PF6:
  • Development and validity of the RM model
  • Application of the RM to capacitor systems
  • Comparison of the RM model to other primitive coarse-grained simulation models

Literature

  • Emiliano Brini, Elena A. Algaer, Pritam Ganguly, Chunli Li, Francisco Rodriguez-Ropero, Nico F. A. van der Vegt.
    Systematic coarse-graining methods for soft matter simulations - a review.
    Soft Matter 9(7):2108–2119, 2013.
    [PDF] (496 KB) [DOI]
  • Yanting Wang, W. G. Noid, Pu Liu, Gregory A. Voth.
    Effective force coarse-graining.
    Physical Chemistry Chemical Physics 11(12):2002–2015, 2009.
    [DOI]
  • Riccardo Baron, Daniel Trzesniak, Alex H. de Vries, Andreas Elsener, Siewert J. Marrink, Wilfred F. van Gunsteren.
    Comparison of Thermodynamic Properties of Coarse-Grained and Atomic-Level Simulation Models.
    ChemPhysChem 8(3):452–461, 2007.
  • Durba Roy, Nikhil Patel, Sean Conte, Mark Maroncelli.
    Dynamics in an Idealized Ionic Liquid Model.
    The Journal of Physical Chemistry B 114(25):8410–8424, 2010.
    [PDF] (3.2 MB) [DOI]
  • Durba Roy, Mark Maroncelli.
    An Improved Four-Site Ionic Liquid Model.
    The Journal of Physical Chemistry B 114(39):12629–12631, 2010.
    [PDF] (535 KB) [DOI]
  • Konrad Breitsprecher, Peter Košovan, Christian Holm.
    Coarse-grained simulations of an ionic liquid-based capacitor I: density, ion size, and valency effects.
    Journal of Physics: Condensed Matter 26(28):284108, 2014.
    [PDF] (1.1 MB) [DOI]
  • Konrad Breitsprecher, Peter Košovan, Christian Holm.
    Coarse-grained simulations of an ionic liquid-based capacitor II: asymmetry in ion shape and charge localization.
    Journal of Physics: Condensed Matter 26(28):284114, 2014.
    [PDF] (1.3 MB) [DOI]
  • Konrad Breitsprecher.
    Model simulations to calculate the electrochemichal properties of ionic liquid-based battery cells.
    Master's thesis, University Stuttgart, 2012.
Retrieved from "https://www2.icp.uni-stuttgart.de/~icp/mediawiki/index.php?title=Hauptseminar_Theorie_und_Simulation_der_weichen_Materie_WS_2014/2015/Coarse-grained_simulation_models:_What_is_left_to_be_learned&oldid=19193"