Add to ORKGMàster en Nanociència i Nanotecnologia, Facultat de Física, Universitat de Barcelona, Curs: 2017-2018. Tutor: Pietro Tierno, José García-TorresThe idea of creating and controlling very small autonomous devices or nanorobots, which are able to move and operate at such very small scales looks like science fiction. However, this idea may not be that far, many nanoswimming devices are being developed and the challenges of the propulsion in liquid environments at low Reynolds conditions are being overcome. Here, two types of magnetic nanorod-shaped nanoswimmers are realized, one consists only on a nickel nanorod and the other is a nickel-polypyrrole bi-segment nanorod. These nanorods have been actuated using oscillating and rotating magnetic fie...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Fuel-free magnetically driven propulsion of flexible Au/Ag/Ni nanowires, with a gold ‘head’ and nick...
Manipulation and navigation of micro and nanoswimmers in different fluid environments can be achieve...
The unique swimming strategies of natural microorganisms have inspired recent development of magneti...
Robots are mechanical systems that perform tasks through a series of perception, cognition, and mani...
Micro/nano-scale propulsion has attracted considerable recent attention due to its promise for biome...
Direct field induced manipulations of nanowires have been recognized as a possible alternative to co...
Direct field induced manipulations of nanowires have been recognized as a possible alternative to co...
Micro/nano-scale propulsion has attracted considerable recent attention due to its promise for biome...
Micro- and nanomotors are nonliving micro- and nanoparticles that are rendered motile by supplying e...
In nature, many bacteria swim by rotating their helical flagella. A particularly promising class of ...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Fuel-free magnetically driven propulsion of flexible Au/Ag/Ni nanowires, with a gold ‘head’ and nick...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Fuel-free magnetically driven propulsion of flexible Au/Ag/Ni nanowires, with a gold ‘head’ and nick...
Manipulation and navigation of micro and nanoswimmers in different fluid environments can be achieve...
The unique swimming strategies of natural microorganisms have inspired recent development of magneti...
Robots are mechanical systems that perform tasks through a series of perception, cognition, and mani...
Micro/nano-scale propulsion has attracted considerable recent attention due to its promise for biome...
Direct field induced manipulations of nanowires have been recognized as a possible alternative to co...
Direct field induced manipulations of nanowires have been recognized as a possible alternative to co...
Micro/nano-scale propulsion has attracted considerable recent attention due to its promise for biome...
Micro- and nanomotors are nonliving micro- and nanoparticles that are rendered motile by supplying e...
In nature, many bacteria swim by rotating their helical flagella. A particularly promising class of ...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Fuel-free magnetically driven propulsion of flexible Au/Ag/Ni nanowires, with a gold ‘head’ and nick...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Micro- and nanorobots operating in low Reynolds number fluid environments require specialized swimmi...
Fuel-free magnetically driven propulsion of flexible Au/Ag/Ni nanowires, with a gold ‘head’ and nick...
Manipulation and navigation of micro and nanoswimmers in different fluid environments can be achieve...