Add to ORKGThe behaviour of a non-spherical osmotic motor – an axisymmetric catalytic particle self-propelling in a dilute dispersion of reactant particles – is considered. In contrast to a conventional osmotic motor that creates differences in concentration, and hence in osmotic pressure, due to asymmetry in reaction rate along its surface (e.g. a Janus particle with reactive and non-reactive patches), a non-spherical particle is able to move even with uniform chemical activity on its surface. For small departures from a sphere the velocity of self-propulsion is proportional to the square of the non-sphericity or distortion of the particle shape. It is shown that the inclusion of hydrodynamic interactions (HI) may drastically change the self-propulsi...
Understanding the transport properties of microorganisms in fluid is a fundamental problem in soft m...
International audiencePhoretic self-propulsion is a unique example of force- and torque-free motion ...
Similar to cells, bacteria, and other microorganisms, synthetic chemically-active colloids can harne...
We propose a model for the self-propulsion of a small motor particle that generates a nonuniform con...
A model for self-propulsion of a colloidal particle—the osmotic motor—immersed in a dispersion of “b...
In addition to self-propulsion by phoretic mechanisms that arises from an asymmetric distribution of...
International audienceCatalytic swimmers have attracted much attention as alternatives to biological...
We explore the chemotaxis of an elliptical double-faced Janus motor (Janusbot) stimulated by a secon...
The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own su...
Nonspherical self-propelling colloidal particles offer many possibilities for creating a variety of ...
This is the published version. Copyright 2009 The American Physical SocietyA Comment on the Letter b...
Microspheres with catalytic caps have become a popular model system for studying self-propelled coll...
Since their discovery in 2004, chemically self-propelled nanomotors have been studied in the hopes t...
abstract: Spherical catalytic micromotors fabricated as described in Wheat et al. [Langmuir 26, 1305...
Colloidal motors with micrometer dimensions and no moving parts can be propelled by self-diffusiopho...
Understanding the transport properties of microorganisms in fluid is a fundamental problem in soft m...
International audiencePhoretic self-propulsion is a unique example of force- and torque-free motion ...
Similar to cells, bacteria, and other microorganisms, synthetic chemically-active colloids can harne...
We propose a model for the self-propulsion of a small motor particle that generates a nonuniform con...
A model for self-propulsion of a colloidal particle—the osmotic motor—immersed in a dispersion of “b...
In addition to self-propulsion by phoretic mechanisms that arises from an asymmetric distribution of...
International audienceCatalytic swimmers have attracted much attention as alternatives to biological...
We explore the chemotaxis of an elliptical double-faced Janus motor (Janusbot) stimulated by a secon...
The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own su...
Nonspherical self-propelling colloidal particles offer many possibilities for creating a variety of ...
This is the published version. Copyright 2009 The American Physical SocietyA Comment on the Letter b...
Microspheres with catalytic caps have become a popular model system for studying self-propelled coll...
Since their discovery in 2004, chemically self-propelled nanomotors have been studied in the hopes t...
abstract: Spherical catalytic micromotors fabricated as described in Wheat et al. [Langmuir 26, 1305...
Colloidal motors with micrometer dimensions and no moving parts can be propelled by self-diffusiopho...
Understanding the transport properties of microorganisms in fluid is a fundamental problem in soft m...
International audiencePhoretic self-propulsion is a unique example of force- and torque-free motion ...
Similar to cells, bacteria, and other microorganisms, synthetic chemically-active colloids can harne...