References of "Poty, Martin"
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See detailSelf-assembly of smart mesoscopic objects
Metzmacher, Jean ULiege; Poty, Martin ULiege; Lumay, Geoffroy ULiege et al

in European Physical Journal E : Soft Matter and Biological Physics (2017), 40

Self-assembly due to capillary forces is a common method for generating 2D mesoscale structures made of identical particles floating at some liquid-air interface. We show herein how to create soft ... [more ▼]

Self-assembly due to capillary forces is a common method for generating 2D mesoscale structures made of identical particles floating at some liquid-air interface. We show herein how to create soft entities that deform or not the liquid interface as a function of the strength of some applied magnetic field. These smart floating objects self-assemble or not depending on the application of an external field. Moreover, we show that the self-assembling process can be reversed opening ways to rearrange structures. [less ▲]

Detailed reference viewed: 44 (9 ULiège)
See detailSelf-assembly of capillary multipoles
Poty, Martin ULiege; Lagubeau, Guillaume; Lumay, Geoffroy ULiege et al

Conference (2016, July 21)

Self-assembly of floating particles driven by capillary forces at some liquid-air interface leads to the formation of two-dimensionnal structures. Using a 3d printer, millimeter scale objets are produced ... [more ▼]

Self-assembly of floating particles driven by capillary forces at some liquid-air interface leads to the formation of two-dimensionnal structures. Using a 3d printer, millimeter scale objets are produced. Their 3d shape is chosen in order to create capillary multipoles. The capillary interactions between these components can be either attractive or repulsive depending on the interface local deformations along the liquid-air interface. In order to understand how the shape of an object deforms the interface, we developed an original profilometry method. The measurements show that specific structures can be programmed by selecting the 3d branched shapes. [less ▲]

Detailed reference viewed: 31 (3 ULiège)
See detailProgramming self assembly by designing the 3D shape of floating objects
Poty, Martin ULiege; Lagubeau, Guillaume ULiege; Lumay, Geoffroy ULiege et al

Conference (2014, November 25)

Self-assembly of floating particles driven by capillary forces at some liquid-air interface leads to the formation of two-dimensionnal structures. Using a 3d printer, milimeter scale objets are produced ... [more ▼]

Self-assembly of floating particles driven by capillary forces at some liquid-air interface leads to the formation of two-dimensionnal structures. Using a 3d printer, milimeter scale objets are produced. Their 3d shape is chosen in order to create capillary multipoles. The capillary interactions between these components can be either attractive or repulsive depending on the interface local deformations along the liquid-air interface. In order to understand how the shape of an object deforms the interface, we developed an original profilometry method. The measurements show that specific structures can be programmed by selecting the 3d branched shapes. [less ▲]

Detailed reference viewed: 27 (6 ULiège)
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See detailCustomizing mesoscale self-assembly with three-dimensional printing
Poty, Martin ULiege; Lumay, Geoffroy ULiege; Vandewalle, Nicolas ULiege

in New Journal of Physics (2014)

Detailed reference viewed: 59 (14 ULiège)