Add to ORKGOrganized self-assemblies of Janus catalytic motors, induced by hydrophobic surface interactions involving multiple motor/motor and motor/nonmotor particles, display controlled coordinated self-propulsion. The influence of the self-assembled structures upon the motion behavior is investigated. A dynamic ‘on-the-fly’ assembly is observed during the continuous movement of the individual components, along with changes in the motion behavior. Organized assemblies of multiple motor/nonmotor particles are also illustrated toward optimal cargo transport and delivery. Such controlled structures and motion of chemically powered Janus micromotor assemblies hold considerable promise for the creation of intelligent nanomachines that perform collective ...
We fabricated self-powered colloidal Janus motors combining catalytic and magnetic cap structures, a...
The fabrication of multifunctional polymeric Janus colloids that display catalytically driven propul...
ABSTRACT: We report on the synergy between catalytic propulsion and mesoporous silica nanoparticles ...
Organized self-assemblies of Janus catalytic motors, induced by hydrophobic surface interactions inv...
Organized self-assemblies of Janus catalytic motors, induced by hydrophobic surface interactions inv...
Janus particles can self-assemble around microfabricated gears in reproducible configurations with a...
We describe catalytic micromotors powered by remarkably low concentrations of chemical fuel, down to...
The controlled self-assembly of self-propelled Janus micromotors may give the micromotors some pote...
Abstract Delicate molecular and biological motors are tiny machines capable of achieving numerous vi...
Janus particles can self-assemble around microfabricated gears in reproducible configurations with a...
Supramolecular nanomotors were created with two types of propelling forces that were able to counter...
We fabricated self-powered colloidal Janus motors combining catalytic and magnetic cap structures, a...
The fabrication of multifunctional polymeric Janus colloids that display catalytically driven propul...
ABSTRACT: We report on the synergy between catalytic propulsion and mesoporous silica nanoparticles ...
Organized self-assemblies of Janus catalytic motors, induced by hydrophobic surface interactions inv...
Organized self-assemblies of Janus catalytic motors, induced by hydrophobic surface interactions inv...
Janus particles can self-assemble around microfabricated gears in reproducible configurations with a...
We describe catalytic micromotors powered by remarkably low concentrations of chemical fuel, down to...
The controlled self-assembly of self-propelled Janus micromotors may give the micromotors some pote...
Abstract Delicate molecular and biological motors are tiny machines capable of achieving numerous vi...
Janus particles can self-assemble around microfabricated gears in reproducible configurations with a...
Supramolecular nanomotors were created with two types of propelling forces that were able to counter...
We fabricated self-powered colloidal Janus motors combining catalytic and magnetic cap structures, a...
The fabrication of multifunctional polymeric Janus colloids that display catalytically driven propul...
ABSTRACT: We report on the synergy between catalytic propulsion and mesoporous silica nanoparticles ...