Volume-Phase Transitions in Surface-Tethered Networks and Implications for Swelling Instabilities
Author(s)
Toomey, Ryan
Advisor(s)
Editor(s)
Collections
Supplementary to:
Permanent Link
Abstract
The overall thrust of our research program is to develop responsive structures without the need for complex circuitry or bulky
instrumentation. Our approach is to use polymers that undergo volume-shape changes in response to an external stimulus. The stimulus
alters the balance of hydration forces within the polymer network, resulting in changes to the macroscopic properties. In this talk, I will
discuss the role of intermolecular forces and how they can be harnessed to control volume-phase transitions in polymer networks. I will
also discuss techniques for fabricating surface-confined networks, including soft lithography and photo-lithography strategies, as well as
the effect of surface-confinement on the response characteristics of the polymers. Finally, it will be shown how instabilities can be induced
in hydrogel microstructures to facilitate reconfigurable topographies with sensing and actuation integrated at the material level. Such
reconfigurable surfaces can have important implications for variable adhesion, self-cleaning materials, and separations.
Sponsor
Date
2009-09-16
Extent
56:42 minutes
Resource Type
Moving Image
Resource Subtype
Lecture