Issue 40, 2024

Cybloids – creation and control of cybernetic colloids

Abstract

Colloids play an important role in fundamental science as well as in nature and technology. They have had a strong impact on the fundamental understanding of statistical physics. For example, colloids have helped to obtain a better understanding of collective phenomena, ranging from phase transitions and glass formation to the swarming of active Brownian particles. Yet the success of colloidal systems hinges crucially on the specific physical and chemical properties of the colloidal particles, i.e. particles with the appropriate characteristics must be available. Here we present an idea to create particles with freely selectable properties. The properties might depend, for example, on the presence of other particles (hence mimicking specific pair or many-body interactions), previous configurations (hence introducing some memory or feedback), or a directional bias (hence changing the dynamics). Without directly interfering with the sample, each particle is fully controlled and can receive external commands through a predefined algorithm that can take into account any input parameters. This is realized with computer-controlled colloids, which we term cybloids – short for cybernetic colloids. The potential of cybloids is illustrated by programming a time-delayed external potential acting on a single colloid and interaction potentials for many colloids. Both an attractive harmonic potential and an annular potential are implemented. For a single particle, this programming can cause subdiffusive behavior or lend activity. For many colloids, the programmed interaction potential allows to select a crystal structure at wish. Beyond these examples, we discuss further opportunities which cybloids offer.

Graphical abstract: Cybloids – creation and control of cybernetic colloids

Supplementary files

Article information

Article type
Paper
Submitted
13 Jul 2024
Accepted
25 Sep 2024
First published
26 Sep 2024

Soft Matter, 2024,20, 8112-8124

Cybloids – creation and control of cybernetic colloids

D. Saha, S. Tarama, H. Löwen and S. U. Egelhaaf, Soft Matter, 2024, 20, 8112 DOI: 10.1039/D4SM00853G

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