Difference between revisions of "Hauptseminar Active Matter SS 2017/Finite Element Modeling of Active Particles"
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<!--<bibentry>obrien81a,capuani04a</bibentry>--> | <!--<bibentry>obrien81a,capuani04a</bibentry>--> | ||
− | :* Sascha Ehrhardt.<br /> '''"Simulation of Electroosmotic Flow through Nanocapillaries using Finite-Element Methods"'''.<br /> Master's Thesis, ICP, 2015. | + | :* Sascha Ehrhardt.<br /> '''"Simulation of Electroosmotic Flow through Nanocapillaries using Finite-Element Methods"'''.<br /> Master's Thesis, ICP, '''2015'''. |
− | + | <bibentry>rempfer16a</bibentry> | |
<bibentry>kreissl16a,niu17a</bibentry> | <bibentry>kreissl16a,niu17a</bibentry> |
Revision as of 12:58, 18 January 2017
- "{{{number}}}" is not a number.
- Date
- 2017-06-20
- Time
- 14:00
- Topic
- Finite Element Modeling of Active Particles
- Speaker
- tba
- Tutor
- Patrick Kreissl
Contents
tba
Literature
- Sascha Ehrhardt.
"Simulation of Electroosmotic Flow through Nanocapillaries using Finite-Element Methods".
Master's Thesis, ICP, 2015.
- Sascha Ehrhardt.
-
Georg Rempfer, Gary B. Davies, Christian Holm, Joost de Graaf.
Reducing spurious flow in simulations of electrokinetic phenomena.
The Journal of Chemical Physics 145(4):044901, 2016.
[PDF] (3.1 MB) [DOI]
-
Patrick Kreissl, Christian Holm, Joost de Graaf.
The efficiency of self-phoretic propulsion mechanisms with surface reaction heterogeneity.
The Journal of Chemical Physics 144(20):204902, 2016.
[PDF] (1.6 MB) [DOI] -
Ran Niu, Patrick Kreissl, Aidan Thomas Brown, Georg Rempfer, Denis Botin, Christian Holm, Thomas Palberg, Joost de Graaf.
Microfluidic pumping by micromolar salt concentrations.
Soft Matter 13(7):1505–1518, 2017.
[PDF] (4.5 MB) [DOI]