APS March Meeting 2010
Volume 55, Number 2
Monday–Friday, March 15–19, 2010;
Portland, Oregon
Session Y19: Focus Session: Polymer Colloids: Dynamics
8:00 AM–10:48 AM,
Friday, March 19, 2010
Room: B118-B119
Sponsoring
Units:
DPOLY DCMP
Chair: Ken Schweizer, University of Illinois, Urbana-Champaign
Abstract ID: BAPS.2010.MAR.Y19.1
Abstract: Y19.00001 : Multiarm Star Polymers as Model Soft Colloids
8:00 AM–8:36 AM
Preview Abstract
Abstract
Author:
Dimitris Vlassopoulos
(FORTH and Univ. of Crete)
Over the last decade, star polymers emerged as a useful model colloids that
interpolate between polymers and hard sphere colloids. Together with
microgels, they represent two benchmark soft colloidal systems, their
internal structure being the key difference. Indeed, in the case of stars
with open structure, the arms can interpenetrate in dense suspensions. The
latter feature, that can be probed experimentally, is responsible for a
number of interesting structural and dynamic properties of star polymers
that set them apart from microgels.
In this talk we present the basic properties of star polymers and focus on
their extraordinary behavior in the highly concentrated regime, which is
typically glassy.
Our rheological and scattering experiments demonstrate unique features of
the star glasses. Here we discuss two major ones:
(i) Aging after pre-shear (the so-called rejuvenation) proceeds via a
two-step process, associated with a fast arm engagement and a slow
cooperative (cage) rearrangement. Remarkably, at extremely long times a
steady state is observed and the terminal time in these systems can be
experimentally accessible (and hence tailored at molecular level), as a
consequence of the arms fluctuations.
(ii) Multiple glassy states can be obtained when mixing stars with polymers
or with other stars. Simultaneous theoretical and simulations work suggests
that the softness is at the core of this unexpected behavior where depletion
gives rise to glass melting and eventually re-entrant glasses are formed.
Construction of a state diagram suggests kinetic pathways for tailoring the
flow of soft colloids.
These examples outline the importance of particle architecture on colloidal
properties. Stars are a representative of a large class of hairy particles.
The parallel important developments in mode coupling theory and its verses
provide much needed predictive tools and rationalization for a number of
phenomena such as those discussed here, as well as the complex rheological
response. A wide range of applications in this exciting, fast growing field
appear to emerge.
Parts of this work reflect collaboration with M. Cloitre (ESPCI), B. Erwin
(FORTH/ESPCI), C. N. Likos (Duesseldorf), G. Petekidis (FORTH), F. Sciortino
(Rome), E. Stiakakis (FORTH), and E. Zaccarelli (Rome). Synthesis of
particles by N. Hadjichristidis (Athens), M. Gauthier (Waterloo) and J.
Roovers (NRC).
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2010.MAR.Y19.1