We will develop dissipative block copolymer nanostructures and explore their potential as sensors, actuators, and memory in adaptive systems and intelligent matter. We will design block copolymers able to dynamically alter their composition through energy-driven supramolecular fragmentation. Multivalency and orthogonality of the reversible host-guest interactions will allow us to tune the composition, stability, lifetime and self-assembly behavior of the block copolymers in aqueous solution. We develop out-of-equilibrium morphologies (micelles, vesicles, cubosomes) with tunable lifetimes that only exists as long as sufficient energy is provided. Intrinsic feedback will stabilize steady states by regulating the energy feed. In the long term we aim to implement these dissipative block copolymer morphologies into nanophotonic neural networks.

DFG Programme Collaborative Research Centres

Subproject of SFB 1459:  Intelligent matter: From responsive to adaptive nanosystems

Applicant Institution Universität Münster

Project Heads Professor Dr. André Gröschel; Professor Dr. Bart Jan Ravoo