Add to ORKGABSTRACT The dynamics of the motile magnetotactic bacterium Magnetospirillum gryphiswaldense in a rotating magnetic field is investigated experimentally and analyzed by a theoretical model. These elongated bacteria are propelled by single flagella at each bacterial end and contain a magnetic filament formed by a linear assembly of;40 ferromagnetic nanoparticles. The movements of the bacteria in suspension are analyzed by consideration of the orientation of their magnetic dipoles in the field, the hydrodynamic resistance of the bacteria, and the propulsive force of the flagella. Several novel features found in experiments include a velocity reversal during motion in the rotating field and an interesting diffusive wandering of the trajectory ...
Magnetotactic bacteria have the potential to controllably reach stagnant fluids inside the human bod...
This work addresses the characterization and control of Magnetotactic Bacterium (MTB) which can be c...
Magnetotactic bacteria are aquatic microorganisms with the ability to swim along the field lines of ...
AbstractThe dynamics of the motile magnetotactic bacterium Magnetospirillum gryphiswaldense in a rot...
In this study we modelled and measured the U-turn trajectories of individual magnetotactic bacteria ...
International audienceThe swimming of bacteria provides insight into propulsion and steering under t...
AbstractThe microaerophilic magnetotactic bacterium Magnetospirillum gryphiswaldense swims along mag...
AbstractThe recently developed “microscope” based on a high-Tc dc SQUID (superconducting quantum int...
ABSTRACT Magnetotactic bacteria are microorganisms that orient and migrate along magnetic field line...
AbstractMagnetotactic bacteria are microorganisms that orient and migrate along magnetic field lines...
Magnetotactic bacteria moving on circular orbits form hydrodynamically bound states. When close to a...
We investigatethe swimming motion of rod-shaped magnetotactic bacteriaaffiliated with the {it Nitros...
Magnetotactic bacteria have the potential to execute nontrivial tasks, such as microactuation, micro...
Magnetospirillum gryphiswaldense is a helix-shaped magnetotactic bacterium that synthesizes ironoxid...
This work addresses the characterization and control of Magnetotactic Bacterium (MTB) which can be c...
Magnetotactic bacteria have the potential to controllably reach stagnant fluids inside the human bod...
This work addresses the characterization and control of Magnetotactic Bacterium (MTB) which can be c...
Magnetotactic bacteria are aquatic microorganisms with the ability to swim along the field lines of ...
AbstractThe dynamics of the motile magnetotactic bacterium Magnetospirillum gryphiswaldense in a rot...
In this study we modelled and measured the U-turn trajectories of individual magnetotactic bacteria ...
International audienceThe swimming of bacteria provides insight into propulsion and steering under t...
AbstractThe microaerophilic magnetotactic bacterium Magnetospirillum gryphiswaldense swims along mag...
AbstractThe recently developed “microscope” based on a high-Tc dc SQUID (superconducting quantum int...
ABSTRACT Magnetotactic bacteria are microorganisms that orient and migrate along magnetic field line...
AbstractMagnetotactic bacteria are microorganisms that orient and migrate along magnetic field lines...
Magnetotactic bacteria moving on circular orbits form hydrodynamically bound states. When close to a...
We investigatethe swimming motion of rod-shaped magnetotactic bacteriaaffiliated with the {it Nitros...
Magnetotactic bacteria have the potential to execute nontrivial tasks, such as microactuation, micro...
Magnetospirillum gryphiswaldense is a helix-shaped magnetotactic bacterium that synthesizes ironoxid...
This work addresses the characterization and control of Magnetotactic Bacterium (MTB) which can be c...
Magnetotactic bacteria have the potential to controllably reach stagnant fluids inside the human bod...
This work addresses the characterization and control of Magnetotactic Bacterium (MTB) which can be c...
Magnetotactic bacteria are aquatic microorganisms with the ability to swim along the field lines of ...