Add to ORKGMàster en Nanociència i Nanotecnologia, Facultat de Física, Universitat de Barcelona, Curs: 2018-2019. Tutors: Pietro Tierno, Helena Massana-CidMicroswimmers are artificial microscopic entities able to propel in viscous fluids and have the ability to perform tasks at the microscale. This capacity allows to impact many scientific areas such as micromanipulation, lab-on-a-chip devices or targeted drug delivery. In this study, optical video microscopy was used to examine propelled paramagnetic colloidal carpets. First, previous results were reproduced by sliding carpets on top of a flat substrate. In order to investigate more complex situations as the one occurring in natural systems, a different substrate was used. We have slid carpets on top...
Microscale propulsion impacts a diverse array of fields, with simplistic microrobots allowing for no...
This paper reports various ways of field-based manipulation of magnetic colloidal particles to enhan...
The magnetic field-induced actuation of colloidal nanoparticles has enabled tremendous recent progre...
We demonstrate a general method to assemble and propel highly maneuverable colloidal carpets which c...
The process of crystallization is difficult to observe for transported, out-of-equilibrium systems, ...
[eng] In this thesis we investigate the structure formation and the out-of-equilibrium dynamics of d...
Abstract One of the major challenges in modern robotics is controlling micromanipulation by active a...
This minireview focuses on recent advances with surface magnetic rotors, namely field-responsive sph...
Self-propelled particles are one prototype of synthetic active matter used to understand complex bio...
Biological flows at the microscopic scale are important for the transport of nutrients, locomotion, ...
<p>Pattern formation is a mysterious phenomenon occurring at all scales in nature. The beauty of the...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
We study propulsion arising from microscopic colloidal rotors dynamically assembled and driven in a ...
Elongated nanostructures to be remotely and magnetically propelled in biologically relevant media, h...
Colloidal inclusions in lab-on-a-chip devices can be used to perform analytic operations in a non-in...
Microscale propulsion impacts a diverse array of fields, with simplistic microrobots allowing for no...
This paper reports various ways of field-based manipulation of magnetic colloidal particles to enhan...
The magnetic field-induced actuation of colloidal nanoparticles has enabled tremendous recent progre...
We demonstrate a general method to assemble and propel highly maneuverable colloidal carpets which c...
The process of crystallization is difficult to observe for transported, out-of-equilibrium systems, ...
[eng] In this thesis we investigate the structure formation and the out-of-equilibrium dynamics of d...
Abstract One of the major challenges in modern robotics is controlling micromanipulation by active a...
This minireview focuses on recent advances with surface magnetic rotors, namely field-responsive sph...
Self-propelled particles are one prototype of synthetic active matter used to understand complex bio...
Biological flows at the microscopic scale are important for the transport of nutrients, locomotion, ...
<p>Pattern formation is a mysterious phenomenon occurring at all scales in nature. The beauty of the...
To achieve permanent propulsion of micro-objects in confined fluids is an elusive but challenging go...
We study propulsion arising from microscopic colloidal rotors dynamically assembled and driven in a ...
Elongated nanostructures to be remotely and magnetically propelled in biologically relevant media, h...
Colloidal inclusions in lab-on-a-chip devices can be used to perform analytic operations in a non-in...
Microscale propulsion impacts a diverse array of fields, with simplistic microrobots allowing for no...
This paper reports various ways of field-based manipulation of magnetic colloidal particles to enhan...
The magnetic field-induced actuation of colloidal nanoparticles has enabled tremendous recent progre...