Difference between revisions of "Patrick Kreissl"

Latest revision as of 17:17, 16 January 2023

Patrick Kreissl
PhD student

Office:	1.041
Phone:	+49 711 685-63594
Fax:	+49 711 685-63658
Email:	pkreissl _at_ icp.uni-stuttgart.de
Address:	Patrick Kreissl Institute for Computational Physics Universität Stuttgart Allmandring 3 70569 Stuttgart Germany

Patrick Kreissl, Christian Holm, Rudolf Weeber.
Interplay Between Steric and Hydrodynamic Interactions for Ellipsoidal Magnetic Nanoparticles in a Polymer Suspension.
Soft Matter 19(6):1186–1193, 2023.
[PDF] (1.0 MB) [DOI]

Kai Szuttor, Patrick Kreissl, Christian Holm.
A numerical investigation of analyte size effects in nanopore sensing systems.
The Journal of Chemical Physics 155(13):134902, 2021.
[PDF] (4.8 MB) [Preprint] [DOI]
Rudolf Weeber, Patrick Kreissl, Christian Holm.
Magnetic field controlled behavior of magnetic gels studied using particle-based simulations.
Physical Sciences Reviews :20190106, 2021.
[DOI]
Patrick Kreissl, Christian Holm, Rudolf Weeber.
Frequency-dependent magnetic susceptibility of magnetic nanoparticles in a polymer solution: a simulation study.
Soft Matter 17(1):174–183, 2021.
[PDF] (3.0 MB) [DOI]

Jonas Landsgesell, David Sean, Patrick Kreissl, Kai Szuttor, Christian Holm.
Modeling Gel Swelling Equilibrium in the Mean Field: From Explicit to Poisson-Boltzmann Models.
Physical Review Letters 122(20):208002, 2019.
[PDF] (500 KB) [DOI]
Rudolf Weeber, Patrick Kreissl, Christian Holm.
Studying the field-controlled change of shape and elasticity of magnetic gels using particle-based simulations.
Archive of Applied Mechanics 89(1):3–16, 2019.
[PDF] (2.3 MB) [DOI]

Michael Kuron, Patrick Kreissl, Christian Holm.
Toward Understanding of Self-Electrophoretic Propulsion under Realistic Conditions: From Bulk Reactions to Confinement Effects.
Accounts of Chemical Research 51(12):2998–3005, 2018.
[PDF] (3.6 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]

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]

Marco Brückner, B.Sc. thesis
"Simulating Shape-Anisotropic Magnetic Particles in Complex Fluids" (2019).
Ashreya Jayaram, M.Sc. thesis
"Explicit Modelling of Viscoelastic Media Based on the Lattice-Boltzmann Method" (2018).
Michael Marquardt, B.Sc. thesis
"Molecular Dynamics Simulations of Microgels Loaded with a Ferrofluid" (2018).

@@ Line 14: / Line 14: @@
 == Publications ==
+=== 2023 ===
+<bibentry pdflink=yes>
+    kreissl23a
+</bibentry>
 === 2021 ===
 <bibentry pdflink=yes>
+    szuttor21b,
+    weeber21a,
      kreissl21a
 </bibentry>
@@ Line 37: / Line 43: @@
 == Teaching ==
-* Physik auf dem Computer (SS 21)
+* [https://www2.icp.uni-stuttgart.de/~icp/Physik_auf_dem_Computer Physik auf dem Computer] (SS 21)
 * [https://www2.icp.uni-stuttgart.de/~icp/Hauptseminar_Porous_Media_SS_2021 Hauptseminar "Porous Media"] (SS 21)
 * [https://campus.uni-stuttgart.de/cusonline/pl/ui/$ctx;lang=EN/wbLv.wbShowLVDetail?pStpSpNr=270860&pSpracheNr=1 Computergrundlagen] (WS 20/21)