Difference between revisions of "David Beyer"
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+ | == Theses == | ||
− | == Master Thesis == | + | === Master Thesis === |
Title: '''Coarse-Grained Computer Simulations of Weak Polyelectrolyte Hydrogels, Stars and Brushes''' <br /> | Title: '''Coarse-Grained Computer Simulations of Weak Polyelectrolyte Hydrogels, Stars and Brushes''' <br /> | ||
2021, Institute for Computational Physics, Stuttgart | 2021, Institute for Computational Physics, Stuttgart | ||
[[File:Snapshot topology.png|thumb|none|500px|Tetra-PEG-tetra-PAA hydrogel]] | [[File:Snapshot topology.png|thumb|none|500px|Tetra-PEG-tetra-PAA hydrogel]] | ||
− | == Bachelor Thesis == | + | === Bachelor Thesis === |
Title: '''Controlling Pattern Formation in the Confined Schnakenberg Model''' <br /> | Title: '''Controlling Pattern Formation in the Confined Schnakenberg Model''' <br /> | ||
2019, Max Planck Institute for Intelligent Systems, Stuttgart | 2019, Max Planck Institute for Intelligent Systems, Stuttgart |
Revision as of 12:42, 16 September 2022
David Beyer
PhD Student
PhD Student
Office: | 01.039 |
---|---|
Fax: | +49 711 685-63658 |
Email: | dbeyer _at_ icp.uni-stuttgart.de |
Address: | David Beyer Institute for Computational Physics Universität Stuttgart Allmandring 3 70569 Stuttgart Germany |
Publications
2022
-
Jonas Landsgesell, David Beyer, Pascal Hebbeker, Peter Košovan, Christian Holm.
The pH-Dependent Swelling of Weak Polyelectrolyte Hydrogels Modeled at Different Levels of Resolution.
Macromolecules 55(8):3176–3188, 2022.
[PDF] (3.8 MB) [Preprint] [DOI] -
David Beyer, Jonas Landsgesell, Pascal Hebbeker, Oleg Rud, Raju Lunkad, Peter Košovan, Christian Holm.
Correction to “Grand-Reaction Method for Simulations of Ionization Equilibria Coupled to Ion Partitioning”.
Macromolecules 55(3):1088, 2022.
[PDF] (523 KB) [DOI]
Posters
2021
Data Repositories
2022
Journal Covers
Theses
Master Thesis
Title: Coarse-Grained Computer Simulations of Weak Polyelectrolyte Hydrogels, Stars and Brushes
2021, Institute for Computational Physics, Stuttgart
Bachelor Thesis
Title: Controlling Pattern Formation in the Confined Schnakenberg Model
2019, Max Planck Institute for Intelligent Systems, Stuttgart
Teaching
- Simulation Methods in Physics I (WS 22/23)
- Simulation Methods in Physics II (SS 22)
- Hauptseminar "Porous Media" (SS 21)
- Computergrundlagen (WS 20/21)
- Grundlagen der Experimentalphysik II (SS 19)
- Grundlagen der Experimentalphysik I (WS 18/19)