Add to ORKGA model for self-propulsion of a colloidal particle—the osmotic motor—immersed in a dispersion of “bath” particles is presented. The nonequilibrium concentration of bath particles induced by a surface chemical reaction creates an osmotic pressure imbalance on the motor causing it to move. The ratio of the speed of reaction to that of diffusion governs the bath particle distribution which is employed to calculate the driving force on the motor, and from which the self-induced osmotic velocity is determined. For slow reactions, the self-propulsion is proportional to the reaction velocity. When surface reaction dominates over diffusion the osmotic velocity cannot exceed the diffusive speed of the bath particles. Implications of these features ...
NoThe motion of an artificial micro-scale swimmer that uses a chemical reaction catalyzed on its ow...
The self-propulsion of artificial and biological microswimmers (or active colloidal particles) has o...
The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own su...
A model for self-propulsion of a colloidal particle—the osmotic motor—immersed in a dispersion of “b...
We propose a model for the self-propulsion of a small motor particle that generates a nonuniform con...
We explore the chemotaxis of an elliptical double-faced Janus motor (Janusbot) stimulated by a secon...
The behaviour of a non-spherical osmotic motor – an axisymmetric catalytic particle self-propelling ...
Understanding the transport properties of microorganisms in fluid is a fundamental problem in soft m...
Diffusio-phoresis --the motion of a particle or a macromolecule in a solute concentration gradient--...
abstract: Locomotion of microorganisms is commonly observed in nature. Although microorganism locomo...
Colloidal motors with micrometer dimensions and no moving parts can be propelled by self-diffusiopho...
Since their discovery in 2004, chemically self-propelled nanomotors have been studied in the hopes t...
The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own su...
International audienceWe theoretically study the self-propulsion of a laser-heated Janus particle in...
Movement is an essential feature of life. It allows organisms to move towards a more favorable envir...
NoThe motion of an artificial micro-scale swimmer that uses a chemical reaction catalyzed on its ow...
The self-propulsion of artificial and biological microswimmers (or active colloidal particles) has o...
The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own su...
A model for self-propulsion of a colloidal particle—the osmotic motor—immersed in a dispersion of “b...
We propose a model for the self-propulsion of a small motor particle that generates a nonuniform con...
We explore the chemotaxis of an elliptical double-faced Janus motor (Janusbot) stimulated by a secon...
The behaviour of a non-spherical osmotic motor – an axisymmetric catalytic particle self-propelling ...
Understanding the transport properties of microorganisms in fluid is a fundamental problem in soft m...
Diffusio-phoresis --the motion of a particle or a macromolecule in a solute concentration gradient--...
abstract: Locomotion of microorganisms is commonly observed in nature. Although microorganism locomo...
Colloidal motors with micrometer dimensions and no moving parts can be propelled by self-diffusiopho...
Since their discovery in 2004, chemically self-propelled nanomotors have been studied in the hopes t...
The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own su...
International audienceWe theoretically study the self-propulsion of a laser-heated Janus particle in...
Movement is an essential feature of life. It allows organisms to move towards a more favorable envir...
NoThe motion of an artificial micro-scale swimmer that uses a chemical reaction catalyzed on its ow...
The self-propulsion of artificial and biological microswimmers (or active colloidal particles) has o...
The motion of an artificial microscale swimmer that uses a chemical reaction catalyzed on its own su...