Add to ORKGWe aimed to develop a micro-robot that can crawl on contact surfaces in biological environments. The prototype chassis of this micro-bot consists of a lipid membrane that encapsulates and bonds micro-sized magnetic particles. By applying a rotating magnetic field, we hope to obtain a micro-crawler robot. In this report, we describe our observations of the rotational movement of liposomes (10–60 µm in diameter) encapsulating magnetic particles following manipulation of an external magnetic field using a neodymium magnet. Since this robot actively makes contact with the external environment, it will be possible to salvage some important molecule from the contact surface. It is expected that development of this system will lead to the developm...
Miniature robots promise radical improvements in microengineering and disease diagnosis and therapy....
Transport of individual cells or chemical payloads on a subcellular scale is an enabling tool for th...
Significant progress has been made in the fabrication of micron and sub-micron structures whose moti...
This paper proposes a crawling microrobot that can effectively navigate and anchor in various tubula...
Last two decades has seen a growth of the research on untethered mobile small-scale robots. These mo...
We developed a crawling magnetic robot (CMR), which can stably navigate and perform biopsies remotel...
Nature consists of numerous solutions to overcome challenges in designing artificial systems. Variou...
For targeted transport in the body, biomedical microbots (μbots) must move effectively in three‐dime...
The continuing trend in miniaturization of technology, advancements in micro and nanofabrication and...
Development of targeted drug delivery systems using magnetic microrobots increases the therapeutic i...
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
In recent years, there has been explosive growth in the number of investigations devoted to the deve...
Miniature robots are mobile device that are in the micro to millimetre scale. Untethered miniature r...
Untethered, controllable, mobile microrobots have been proposed for numerous applications, ranging f...
Small soft robotic systems are being explored for myriad applications in medicine. Specifically, mag...
Miniature robots promise radical improvements in microengineering and disease diagnosis and therapy....
Transport of individual cells or chemical payloads on a subcellular scale is an enabling tool for th...
Significant progress has been made in the fabrication of micron and sub-micron structures whose moti...
This paper proposes a crawling microrobot that can effectively navigate and anchor in various tubula...
Last two decades has seen a growth of the research on untethered mobile small-scale robots. These mo...
We developed a crawling magnetic robot (CMR), which can stably navigate and perform biopsies remotel...
Nature consists of numerous solutions to overcome challenges in designing artificial systems. Variou...
For targeted transport in the body, biomedical microbots (μbots) must move effectively in three‐dime...
The continuing trend in miniaturization of technology, advancements in micro and nanofabrication and...
Development of targeted drug delivery systems using magnetic microrobots increases the therapeutic i...
An artificial magnetotactic microbot was created by integrating the microalgal cell with magnetic mi...
In recent years, there has been explosive growth in the number of investigations devoted to the deve...
Miniature robots are mobile device that are in the micro to millimetre scale. Untethered miniature r...
Untethered, controllable, mobile microrobots have been proposed for numerous applications, ranging f...
Small soft robotic systems are being explored for myriad applications in medicine. Specifically, mag...
Miniature robots promise radical improvements in microengineering and disease diagnosis and therapy....
Transport of individual cells or chemical payloads on a subcellular scale is an enabling tool for th...
Significant progress has been made in the fabrication of micron and sub-micron structures whose moti...