Add to ORKGPhysics governing the locomotion of microorganisms and other microsystems is dominated by viscous damping. An effective swimming strategy involves the non-reciprocal and periodic deformations of the considered body. Herein, we show that a magnetocapillary-driven self-assembly, composed of three soft-ferromagnetic beads, is able to swim along a liquid-air interface when driven by an external magnetic field. Moreover, the system can be fully controled, opening ways to explore low Reynolds number swimming and to create micromanipulators in various applications
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
This is the author accepted manuscript. The final version is available from AIP Publishing via the D...
Physics governing the locomotion of microorganisms and other microsystems is dominated by viscous da...
When particles are suspended at air-water interfaces in the presence of a vertical magnetic field, d...
Because they cause a deformation of the interface, floating particles interact. In particular, ident...
Magnetocapillary self-assemblies form when soft-ferromagnetic particles are deposited on a liquid su...
peer reviewedReview article on magnetocapillary self-assemblies, and in particular microswimmers, wh...
Self-propulsion of magneto-elastic composite microswimmers is demonstrated under a uniaxial field at...
Self-assembled magnetocapillary microswimmers were experimentally demonstrated recently. Here, we st...
International audienceThe movement of microorganisms is not only an essential aspect of life, it als...
We present an experiment where three mesoscopic soft ferromag-netic beads are placed onto a liquid s...
In the study of microscopic flows, self-propulsion has been particularly topical in recent years, wi...
We present an experimental realisation of two new artificial microswimmers that swim at low Reynolds...
Significant progress has been made in the fabrication of micron and sub-micron structures whose moti...
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
This is the author accepted manuscript. The final version is available from AIP Publishing via the D...
Physics governing the locomotion of microorganisms and other microsystems is dominated by viscous da...
When particles are suspended at air-water interfaces in the presence of a vertical magnetic field, d...
Because they cause a deformation of the interface, floating particles interact. In particular, ident...
Magnetocapillary self-assemblies form when soft-ferromagnetic particles are deposited on a liquid su...
peer reviewedReview article on magnetocapillary self-assemblies, and in particular microswimmers, wh...
Self-propulsion of magneto-elastic composite microswimmers is demonstrated under a uniaxial field at...
Self-assembled magnetocapillary microswimmers were experimentally demonstrated recently. Here, we st...
International audienceThe movement of microorganisms is not only an essential aspect of life, it als...
We present an experiment where three mesoscopic soft ferromag-netic beads are placed onto a liquid s...
In the study of microscopic flows, self-propulsion has been particularly topical in recent years, wi...
We present an experimental realisation of two new artificial microswimmers that swim at low Reynolds...
Significant progress has been made in the fabrication of micron and sub-micron structures whose moti...
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
This is the author accepted manuscript. The final version is available from AIP Publishing via the D...