Conformational switching of chiral colloidal rafts regulates raft-raft attractions and repulsions
Joia Miller, Chaitanya Joshi, Prerna Sharma, Aparna Baskaran, Gregory, M. Grason, Michael F. Hagan, Zvonimir Dogic

TL;DR
This study reveals how tuning membrane chirality causes colloidal rafts to switch between chiral states, dramatically changing their interactions and enabling complex self-assembled structures.
Contribution
It demonstrates that membrane chirality controls raft interactions and structures, introducing switchable attractions and repulsions that lead to novel higher-order assemblies.
Findings
Rafts switch between chiral states, altering interactions.
Same chirality causes long-range repulsion, opposite causes attraction.
Complex assemblies like tetramers and lattice structures form.
Abstract
Membrane-mediated particle interactions depend both on the properties of the particles themselves and the membrane environment in which they are suspended. Experiments have shown that chiral rod-like inclusions dissolved in a colloidal membrane of opposite handedness assemble into colloidal rafts, which are finite-sized reconfigurable droplets consisting of a large but precisely defined number of rods. Here, we systematically tune the chirality of the background membrane, and find that in the achiral limit colloidal rafts acquire fundamentally new structural properties and interactions. In particular, rafts can switch between two chiral states of opposite handedness, which dramatically alters the nature of the membrane-mediated raft-raft interactions. Rafts with the same chirality have long-ranged repulsions, while those with opposite chirality acquire attractions with a well-defined…
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