Add to ORKGWe describe the propulsion mechanism of the catalytic microjet engines that are fabricated using rolled-up nanotech. Microjets have recently shown numerous potential applications in nanorobotics but currently there is a lack of an accurate theoretical model that describes the origin of the motion as well as the mechanism of self-propulsion. The geometric asymmetry of a tubular microjet leads to the development of a capillary force, which tends to propel a bubble toward the larger opening of the tube. Because of this motion in an asymmetric tube, there emerges a momentum transfer to the fluid. In order to compensate this momentum transfer, a jet force acting on the tube occurs. This force, which is counterbalanced by the linear drag force, e...
Although artificial micromotors with unconventional shapes are emerging as a powerful tool in variou...
The motion of self-propelled tubular micro- and nanojets has so far been achieved by bubble propuls...
Combining conventional physical vapor deposition and wet chemical etching, nanoshell catalytic motor...
We describe the propulsion mechanism of the catalytic microjet engines that are fabricated using rol...
This dissertation offers demonstrations of autonomous catalytic microtubes (microjet engines) with t...
Artificial micro- and nano-swimmers are interesting systems for both fundamental understandings of s...
This work focuses on the investigation of platinum-based catalytic micro/nanomotors, including worki...
In this tutorial review we describe the recent progress on catalytic microtubular engines fabricated...
This paper reports a novel disk-like micro-craft with dual off-center nozzle nanoengines, consisting...
We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propell...
Micro/nanomotors are self-propelled machines that can convert various energy sources into autonomous...
Although artificial micromotors with unconventional shapes are emerging as a powerful tool in variou...
The motion of self-propelled tubular micro- and nanojets has so far been achieved by bubble propuls...
Combining conventional physical vapor deposition and wet chemical etching, nanoshell catalytic motor...
We describe the propulsion mechanism of the catalytic microjet engines that are fabricated using rol...
This dissertation offers demonstrations of autonomous catalytic microtubes (microjet engines) with t...
Artificial micro- and nano-swimmers are interesting systems for both fundamental understandings of s...
This work focuses on the investigation of platinum-based catalytic micro/nanomotors, including worki...
In this tutorial review we describe the recent progress on catalytic microtubular engines fabricated...
This paper reports a novel disk-like micro-craft with dual off-center nozzle nanoengines, consisting...
We describe nanoscale tools in the form of autonomous and remotely guided catalytically self-propell...
Micro/nanomotors are self-propelled machines that can convert various energy sources into autonomous...
Although artificial micromotors with unconventional shapes are emerging as a powerful tool in variou...
The motion of self-propelled tubular micro- and nanojets has so far been achieved by bubble propuls...
Combining conventional physical vapor deposition and wet chemical etching, nanoshell catalytic motor...