Topics
flagellaAnatomical structure
methyl celluloseChemical substance
viscositySoftware
magnetic fieldDisease
Abstract — Swimming microrobots have the potential to be used in medical applications such as targeted drug delivery. The challenges for navigating microrobots in the human body lie not only in the viscosity of body fluids but also in the existence of different types of fibers and cells such as blood cells or protein strands. This paper investigates artificial bacterial flagella (ABFs), which are helical microrobots actuated by an external magnetic field, in methyl cellulose solutions of different concentrations. It can be shown that the microrobots can be propelled in these gel-like heterogeneous solutions and successful swimming was demonstrated in solutions with a viscosity of more than 20 times that of water. Furthermore, results indica...
Magnetic helical microswimmers, also known as artificial bacterial flagella (ABFs), perform 3D navig...
Many theoretical studies of bacterial locomotion adopt a simple model for the organism consisting of...
The quest for swimming microrobots originates from possible applications in medicine, especially inv...
Swimming microrobots have the potential to be used in medical applications such as targeted drug del...
Artificial bacterial flagella (ABFs) consist of helical tails resembling natural flagella fabricated...
Nature consists of numerous solutions to overcome challenges in designing artificial systems. Variou...
Microrobots have the potential to dramatically change many aspects of medicine by navigating through...
Artificial microswimmers are micron-sized devices that can propel in viscous fluids. Their potentia...
Currently there is a great deal of interest in micro and nano scale robotics for biomedical applicat...
Swimming microorganisms are a source of inspiration for small scale robots that are intended to oper...
We show that DNA-based self-assembly can serve as a general and flexible tool to construct artificia...
Herein, we assess the functionality of magnetic helical microswimmers as basic tools for the manipul...
We show that DNA-based self-assembly can serve as a general and flexible tool to construct artificia...
International audienceThe movement of microorganisms is not only an essential aspect of life, it als...
Microswimmers, i.e. swimmers of micron size experiencing low Reynolds numbers, have received a great...
Magnetic helical microswimmers, also known as artificial bacterial flagella (ABFs), perform 3D navig...
Many theoretical studies of bacterial locomotion adopt a simple model for the organism consisting of...
The quest for swimming microrobots originates from possible applications in medicine, especially inv...
Swimming microrobots have the potential to be used in medical applications such as targeted drug del...
Artificial bacterial flagella (ABFs) consist of helical tails resembling natural flagella fabricated...
Nature consists of numerous solutions to overcome challenges in designing artificial systems. Variou...
Microrobots have the potential to dramatically change many aspects of medicine by navigating through...
Artificial microswimmers are micron-sized devices that can propel in viscous fluids. Their potentia...
Currently there is a great deal of interest in micro and nano scale robotics for biomedical applicat...
Swimming microorganisms are a source of inspiration for small scale robots that are intended to oper...
We show that DNA-based self-assembly can serve as a general and flexible tool to construct artificia...
Herein, we assess the functionality of magnetic helical microswimmers as basic tools for the manipul...
We show that DNA-based self-assembly can serve as a general and flexible tool to construct artificia...
International audienceThe movement of microorganisms is not only an essential aspect of life, it als...
Microswimmers, i.e. swimmers of micron size experiencing low Reynolds numbers, have received a great...
Magnetic helical microswimmers, also known as artificial bacterial flagella (ABFs), perform 3D navig...
Many theoretical studies of bacterial locomotion adopt a simple model for the organism consisting of...
The quest for swimming microrobots originates from possible applications in medicine, especially inv...
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