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TU Berlin

Inhalt des Dokuments

Projects

Project Area A "Self-assembly induced by patterned surfaces"
#
Project Leader
Title
PhD Student
A1
Schoen
Self-assembly of switchable liquid crystal phases at patterned substrates (PDF, 102,1 KB)
S. Schlotthauer
A7
v. Klitzing
Ordering of nanoparticles at surfaces patterned with polymer brushes (PDF, 101,2 KB)
Dikran Kesal
A4
Riegler
Nucleation and self-organized growth of nano-aggregates at interfaces (PDF, 183,1 KB)
R. Perez-Garcia
A5
Stark
Manipulating light-switchable molecules at surfaces
J. Grawitter
A6
Riegler
Nucleation and growth at nano-structured interfaces
N.N.
A8
Schoen
Density functional theory of anisometric fluids in anisotropic external fields
S. Wandrei
Project Area B "Self-assembly at nanoparticles and curved interfaces"
#
Project Leader
Title
PhD Student
B2
Gradzielski
Effect of polymer modification on nanoparticle – membrane interactions (PDF, 197,0 KB)
M. Sokolowski
B5
Weikl
Simulations of nanoparticles and biomembrane (PDF, 112,7 KB)
F. Bonazzi
B8
Ballauff
Interaction of proteins with polyelectrolytes
J. Walkowiak
B9
Grafmüller
Modelling natural polysaccharides (PDF, 308,9 KB)
A. Singhal
B10
Schoen
Self-assembly of discotic liquid crystals at nanocolloids
N.N.
Call for Applications
Project Area C "Biomimetic processes controlled by interfaces"
#
Project Leader
Title
PhD Student
C6
Dimova
Interactions between membranes and nano- and micron-sized particles (PDF, 1,0 MB)
E. Ewins
C7
Klapp
Collective properties of driven colloidal particles at interfaces
G.-J. Liao
C8
Lipowsky
Engulfment of nanoparticles by biometic membranes
N.N.
C9
Rabe
Molecular nanostructures in a soft slit-pore of graphene and mica
A. Rauf
C10
Hildebrandt
Spectroscopic studies on the vibrational Stark effect of self-assembled monolayers (PDF, 142,2 KB)
J. Staffa

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