Self-assembly of smart mesoscopic objects

. 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 magnet...

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Published in	The European physical journal. E, Soft matter and biological physics Vol. 40; no. 12; pp. 108 - 6
Main Authors	Metzmacher, J., Poty, M., Lumay, G., Vandewalle, N.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 12.12.2017 Springer Nature B.V
Subjects	Assembling Biological and Medical Physics Biophysics Complex Fluids and Microfluidics Complex Systems Condensed matter physics Deformation mechanisms Floating structures Nanotechnology Physics Physics and Astronomy Polymer Sciences Regular Article Self-assembly Soft and Granular Matter Surfaces and Interfaces Thin Films Soft Matter: Self-organisation and Supramolecular Assemblies
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Abstract	. 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. Graphical abstract
AbstractList	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.Graphical abstract 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. . 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. Graphical abstract
ArticleNumber	108
Author	Poty, M. Lumay, G. Metzmacher, J. Vandewalle, N.
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Snippet	. Self-assembly due to capillary forces is a common method for generating 2D mesoscale structures made of identical particles floating at some liquid-air... Self-assembly due to capillary forces is a common method for generating 2D mesoscale structures made of identical particles floating at some liquid-air...
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SubjectTerms	Assembling Biological and Medical Physics Biophysics Complex Fluids and Microfluidics Complex Systems Condensed matter physics Deformation mechanisms Floating structures Nanotechnology Physics Physics and Astronomy Polymer Sciences Regular Article Self-assembly Soft and Granular Matter Surfaces and Interfaces Thin Films
Title	Self-assembly of smart mesoscopic objects
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