Add to ORKGWe study magnetic artificial flagella whose swimming speed and direction can be controlled using light and magnetic field as external triggers. The dependence of the swimming velocity on the system parameters (e.g., length, stiffness, fluid viscosity, and magnetic field) is explored using a computational framework in which the magnetostatic, fluid dynamic, and solid mechanics equations are solved simultaneously. A dimensionless analysis is carried out to obtain an optimal combination of system parameters for which the swimming velocity is maximal. The swimming direction reversal is addressed by incorporating photoresponsive materials, which in the photoactuated state can mimic natural mastigonemes
We formulate and solve the equations governing the dynamics of a microscopic artificial swimmer comp...
International audience<table border="0" cellpadding="0" cellspacing="0" width="568" style="border-co...
Abstract — Swimming microrobots have the potential to be used in medical applications such as target...
We study magnetic artificial flagella whose swimming speed and direction can be controlled using lig...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
Biomimetic micro-swimmers can be used for various medical applications, such as targeted drug delive...
We present an automated procedure for the design of optimal actuation for flagellar magnetic microsw...
Artificial bacterial flagella (ABFs) consist of helical tails resembling natural flagella fabricated...
Biomimetic micro-swimmers can be used for various medical applications, such as targeted drug delive...
We formulate and solve the equations governing the dynamics of a microscopic artificial swimmer comp...
International audience<table border="0" cellpadding="0" cellspacing="0" width="568" style="border-co...
Abstract — Swimming microrobots have the potential to be used in medical applications such as target...
We study magnetic artificial flagella whose swimming speed and direction can be controlled using lig...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
Biomimetic micro-swimmers can be used for various medical applications, such as targeted drug delive...
We present an automated procedure for the design of optimal actuation for flagellar magnetic microsw...
Artificial bacterial flagella (ABFs) consist of helical tails resembling natural flagella fabricated...
Biomimetic micro-swimmers can be used for various medical applications, such as targeted drug delive...
We formulate and solve the equations governing the dynamics of a microscopic artificial swimmer comp...
International audience<table border="0" cellpadding="0" cellspacing="0" width="568" style="border-co...
Abstract — Swimming microrobots have the potential to be used in medical applications such as target...