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.
-
Kreissl, Patrick and Holm, Christian and de Graaf, Joost.
"The efficiency of self-phoretic propulsion mechanisms with surface reaction heterogeneity".
The Journal of Chemical Physics 144(20)(204902), 2016.
[PDF] (2 MB) [DOI] -
Niu, Ran and Kreissl, Patrick and Brown, Aidan Thomas and Rempfer, Georg and Botin, Denis and Holm, Christian and Palberg, Thomas and de Graaf, Joost.
"Microfluidic pumping by micromolar salt concentrations".
Soft Matter 13(1505–1518), 2017.
[PDF] (5 MB) [DOI]