Add to ORKGCooperative motion in biological microswimmers is crucial for their survival as it facilitates adhesion to surfaces, formation of hierarchical colonies, efficient motion, and enhanced access to nutrients. Here, we confine synthetic, catalytic microswimmers along one-dimensional paths and demonstrate that they too show a variety of cooperative behaviours. We find that their speed increases with the number of swimmers, and that the activity induces a preferred distance between swimmers. Using a minimal model, we ascribe this behavior to an effective activity-induced potential that stems from a competition between chemical and hydrodynamic coupling. These interactions further induce active self-assembly into trains where swimmers move at a wel...
Microswimmers, such as bacteria, are known to show different behaviours depending on their local env...
Swimming cells and microorganisms must often move through complex fluids that contain an immersed mi...
This article provides a review of the recent development of biomimicking behaviors in active colloid...
Cooperative motion in biological microswimmers is crucial for their survival as it facilitates adhes...
Locomotion and transport of microorganisms in fluids is an essential aspect of life. Search for food...
Active matter systems are continuously consuming energy from the environment to achieve different pu...
Synthetic microswimmers take an important place within the interdisciplinary field of active soft ma...
Synthetic microswimmers take an important place within the interdisciplinary field of active soft ma...
We unveil orbital topologies of two nearby swimming microorganisms using an artificial microswimmer,...
We unveil orbital topologies of two nearby swimming microorganisms using an artificial microswimmer,...
Locomotion of autonomous microswimmers is a fascinating field at the cutting edge of science. It com...
This dissertation contains original research on a range of problems involving the locomotion of diff...
Hydrodynamic interactions are crucial for determining the cooperative behavior of microswimmers at l...
Tiny self-propelled swimmers capable of autonomous navigation through complex environments provide a...
Tiny self-propelled swimmers capable of autonomous navigation through complex environments provide a...
Microswimmers, such as bacteria, are known to show different behaviours depending on their local env...
Swimming cells and microorganisms must often move through complex fluids that contain an immersed mi...
This article provides a review of the recent development of biomimicking behaviors in active colloid...
Cooperative motion in biological microswimmers is crucial for their survival as it facilitates adhes...
Locomotion and transport of microorganisms in fluids is an essential aspect of life. Search for food...
Active matter systems are continuously consuming energy from the environment to achieve different pu...
Synthetic microswimmers take an important place within the interdisciplinary field of active soft ma...
Synthetic microswimmers take an important place within the interdisciplinary field of active soft ma...
We unveil orbital topologies of two nearby swimming microorganisms using an artificial microswimmer,...
We unveil orbital topologies of two nearby swimming microorganisms using an artificial microswimmer,...
Locomotion of autonomous microswimmers is a fascinating field at the cutting edge of science. It com...
This dissertation contains original research on a range of problems involving the locomotion of diff...
Hydrodynamic interactions are crucial for determining the cooperative behavior of microswimmers at l...
Tiny self-propelled swimmers capable of autonomous navigation through complex environments provide a...
Tiny self-propelled swimmers capable of autonomous navigation through complex environments provide a...
Microswimmers, such as bacteria, are known to show different behaviours depending on their local env...
Swimming cells and microorganisms must often move through complex fluids that contain an immersed mi...
This article provides a review of the recent development of biomimicking behaviors in active colloid...