Last modified:
August 16 2017 14:54

Dieter Schwanzer

Title: DI
Position: PhD student (FWF)
Email: dieter.schwanzer(at)tuwien.ac.at
Contact: Room DBO10A24, 10th floor
Phone: +4315880113631
Fax: -

Papers

1. "Two-dimensional systems with competing interactions: dynamic properties of single particles and of clusters"
D. F. Schwanzer, D. Coslovich, G. Kahl Journal of Physics: Condensed Matter 28, 414015 (2016)

2. "Two-dimensional systems with competing interactions: microphase formation under the effect of a disordered porous matrix"
D. F. Schwanzer and G. Kahl Condens. Matter Phys. 14, 33801:1-12 (2011)

3. "Two-dimensional systems with competing interactions: microphase formation versus liquid-vapour phase separation"
D. F. Schwanzer and G. Kahl J. Phys.: Condens. Matter 22, 415103 (2010)

4. "Effects of porous confinement on the structural properties of the Gaussian core model"
D. Schwanzer, D. Coslovich, J. Kurzidim, and G. Kahl Mol. Phys. 107, 433 (2009)

Talks

1. "Static and dynamic properties of two-dimensional systems with competing interactions"
D. Schwanzer, March 23 2015, CMS seminar, Vienna (Austria)

2. "Static and dynamic properties of two dimensional systems with competing interactions"
D. Schwanzer, June 21, 2010, CMS seminar, Vienna (Austria)

Posters

1. "Static and dynamic properties of two-dimensional systems with competing interactions"
D. Schwanzer, D. Coslovich, and G. Kahl, International Soft Matter Conference, July 2010, Granada (Spain)

2. "Diffusion-localization and liquid-glass transitions of a colloidal fluid in porous confinment"
D. Coslovich, D. F. Schwanzer, and G. Kahl, Diffusion Fundamentals III, August 2009, Athens (Greece)

3. "Structural properties of colloids confined in porous materials"
D. Schwanzer, J. Kurzidim, D. Coslovich, and G. Kahl, 7th Liquid Matter Conference 2008, July 2008, Lund (Sweden)

4. "Radial distribution functions of colloidal particles in porous confinement"
D. Schwanzer, J. Kurzidim, D. Coslovich, and G. Kahl, SimBioMa 2008, April 2008, Konstanz (Germany)

5. "Solving the replica Ornstein-Zernike equations for a system of polymers confined in a porous matrix of star polymers"
D. Schwanzer, M.-J. Fernaud, G. Kahl, and C. N. Likos, Winter School Amsterdam CECAM Workshop (Understanding Molecular Simulation), January 2008, Amsterdam (Netherlands)

6. "Structure of a system of polymers confined in a porous matrix of star polymers"
D. Schwanzer, Evaluation Hearing: Computational Materials Science, November 2007, Vienna (Austria)

7. "Polymers confined in a porous matrix of star polymers"
D. Schwanzer, M.-J. Fernaud, G. Kahl, and C. N. Likos, CCP5 Summer School - 2007 (Methods in Molecular Simulation), July 2007, Sheffield (Great Britain)