Add to ORKGWe study propulsion arising from microscopic colloidal rotors dynamically assembled and driven in a viscous fluid upon application of an elliptically polarized rotating magnetic field. Close to a confining plate, the motion of this self-assembled microscopic worm results from the cooperative flow generated by the spinning particles which act as a hydrodynamic 'conveyor belt.' Chains of rotors propel faster than individual ones, until reaching a saturation speed at distances where induced-flow additivity vanishes. By combining experiments and theoretical arguments, we elucidate the mechanism of motion and fully characterize the propulsion speed in terms of the field parameters
The remarkable efficiency and dynamics of micromachines in living organisms have inspired researcher...
The low Reynolds number condition presents a fundamental constraint on designing locomotive mechanis...
Microscale propulsion impacts a diverse array of fields, with simplistic microrobots allowing for no...
We study propulsion arising from microscopic colloidal rotors dynamically assembled and driven in a ...
We describe a method to trap, transport and release microscopic particles in a viscous fluid using t...
We study the propulsion of a micron-size paramagnetic colloidal doublet dispersed in water and drive...
Biological flows at the microscopic scale are important for the transport of nutrients, locomotion, ...
We study the propulsion of a micron-size paramagnetic colloidal doublet dispersed in water and drive...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
We study the pair interactions between magnetically driven colloidal microrotors with an anisotropic...
In this article, we combine experiments and theory to investigate the transport properties of anisot...
We demonstrate a general method to assemble and propel highly maneuverable colloidal carpets which c...
We investigate the collective transport properties of microscopic magnetic rollers that propel close...
The remarkable efficiency and dynamics of micromachines in living organisms have inspired researcher...
The low Reynolds number condition presents a fundamental constraint on designing locomotive mechanis...
Microscale propulsion impacts a diverse array of fields, with simplistic microrobots allowing for no...
We study propulsion arising from microscopic colloidal rotors dynamically assembled and driven in a ...
We describe a method to trap, transport and release microscopic particles in a viscous fluid using t...
We study the propulsion of a micron-size paramagnetic colloidal doublet dispersed in water and drive...
Biological flows at the microscopic scale are important for the transport of nutrients, locomotion, ...
We study the propulsion of a micron-size paramagnetic colloidal doublet dispersed in water and drive...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
We study the pair interactions between magnetically driven colloidal microrotors with an anisotropic...
In this article, we combine experiments and theory to investigate the transport properties of anisot...
We demonstrate a general method to assemble and propel highly maneuverable colloidal carpets which c...
We investigate the collective transport properties of microscopic magnetic rollers that propel close...
The remarkable efficiency and dynamics of micromachines in living organisms have inspired researcher...
The low Reynolds number condition presents a fundamental constraint on designing locomotive mechanis...
Microscale propulsion impacts a diverse array of fields, with simplistic microrobots allowing for no...