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The fabrication of novel soft materials is an important scientific and technological challenge. We investigate the response of magnetic ellipsoidal particles adsorbed at fluid-fluid interfaces to external magnetic fields. By exploiting…

软凝聚态物质 · 物理学 2014-10-29 Gary B. Davies , Timm Krueger , Peter V. Coveney , Jens Harting , Fernando Bresme

Directed assembly of colloids is an exciting field in materials science to form structures with new symmetries and responses. Fluid interfaces have been widely exploited to make densely packed ordered structures. We have been studying how…

软凝聚态物质 · 物理学 2017-07-03 Iris B. Liu , Giulia Bigazzi , Nima Sharifi-Mood , Lu Yao , Kathleen J. Stebe

In directed assembly, small building clocks are assembled into an organized structures under the influence of guiding fields. Capillary interactions provide a versatile route for structure formation. Colloids adsorbed on fluid interfaces…

软凝聚态物质 · 物理学 2018-05-23 Iris B. Liu , Nima Sharifi-Mood , Kathleen J. Stebe

A particle placed in soft matter distorts its host and creates an energy landscape. This can occur, for example, for particles in liquid crystals, for particles on lipid bilayers or for particles trapped at fluid interfaces. Such energies…

软凝聚态物质 · 物理学 2015-10-20 Nima Sharifi-Mood , Iris B. Liu , Kathleen J. Stebe

Capillary interactions can be used to direct assembly of particles adsorbed at fluid-fluid interfaces. Precisely controlling the magnitude and direction of capillary interactions to assemble particles into favoured structures for materials…

软凝聚态物质 · 物理学 2016-07-11 Qingguang Xie , Gary B. Davies , Jens Harting

Capillary interactions have emerged as a tool for the directed assembly of particles adsorbed at fluid-fluid interfaces, and play a role in controlling the mechanical properties of emulsions and foams. In this paper, following Davies et al.…

软凝聚态物质 · 物理学 2015-07-23 Gary B. Davies , Lorenzo Botto

Capillary forces guide the motion of biomolecular condensates, water-borne insects, and breakfast cereal. These surface-mediated interactions can be harnessed to build units into materials with exotic properties deriving from mesoscale…

软凝聚态物质 · 物理学 2025-07-22 Anshu Thapa , Robert Malinowski , Matthew O. Blunt , Giorgio Volpe , Joe Forth

We address the question: How does capillarity propel microspheres along curvature gradients? For a particle on a fluid interface, there are two conditions that can apply at the three phase contact line: Either the contact line adopts an…

软凝聚态物质 · 物理学 2015-05-12 Nima Sharifi-Mood , Iris B. Liu , Kathleen J. Stebe

The dynamics of spherical particles driven along an interface between two immiscible fluids is investigated asymptotically. Under the assumptions of a pinned three-phase contact line and very different viscosities of the two fluids, a…

软凝聚态物质 · 物理学 2015-04-01 Aaron Dörr , Steffen Hardt

Colloidal particles at complex fluid interfaces and within films assemble to form ordered structures with high degrees of symmetry via interactions that include capillarity, elasticity, and other fields like electrostatic charge. Here we…

Micron-sized objects confined in thin liquid films interact through forces mediated by the deformed liquid-air interface. This capillary interactions provide a powerful driving mechanism for the self-assembly of ordered structures such as…

软凝聚态物质 · 物理学 2008-04-05 R. Di Leonardo , F. Saglimbeni , G. Ruocco

We investigate the dynamics of colloids at a fluid interface driven by attractive capillary interactions. At submillimeter length scales, the capillary attraction is formally analogous to two-dimensional gravity. In particular it is a…

软凝聚态物质 · 物理学 2010-07-27 Alvaro Dominguez , Martin Oettel , S. Dietrich

The effective capillary interaction potentials for small colloidal particles trapped at the surface of liquid droplets are calculated analytically. Pair potentials between capillary monopoles and dipoles, corresponding to particles floating…

软凝聚态物质 · 物理学 2015-05-27 J. Guzowski , M. Tasinkevych , S. Dietrich

Colloidal assembly at fluid interfaces has a great potential for the bottom-up fabrication of novel structured materials. However, challenges remain in realizing controllable and tunable assembly of particles into diverse structures.…

软凝聚态物质 · 物理学 2020-12-29 Qingguang Xie , Jens Harting

Within a general theoretical framework we study the effective, deformation-induced interaction between two colloidal particles trapped at a fluid interface in the regime of small deformations. In many studies, this interaction has been…

软凝聚态物质 · 物理学 2010-06-18 Alvaro Dominguez , Martin Oettel , Siegfried Dietrich

Charged colloidal particles trapped at an air--water interface are well known to form an ordered crystal, stabilized by a long ranged repulsion, the details of this repulsion remain something of a mystery, but all experiments performed to…

软凝聚态物质 · 物理学 2016-12-22 Duck-Gyu Lee , Pietro Cicuta , Dominic Vella

This paper presents an overview and discussion of magnetocapillary self-assemblies. New results are presented, in particular concerning the possible development of future applications. These self-organizing structures possess the notable…

流体动力学 · 物理学 2017-07-21 Galien Grosjean , Maxime Hubert , Nicolas Vandewalle

Small objects floating on a fluid have a tendency to aggregate due to capillary forces. This effect has been used, with the help of a magnetic induction field, to assemble submillimeter metallic spheres into a variety of structures, whose…

Particles with directional interactions are promising building blocks for new functional materials and may serve as models for biological structures. Mutually attractive nanoparticles that are deformable due to flexible surface groups, for…

软凝聚态物质 · 物理学 2016-07-19 Chris H. J. Evers , Jurriaan A. Luiken , Peter G. Bolhuis , Willem K. Kegel

Janus particles have attracted significant interest as building blocks for complex materials in recent years. Furthermore, capillary interactions have been identified as a promising tool for directed self-assembly of particles at…

软凝聚态物质 · 物理学 2015-03-13 Qingguang Xie , Gary B. Davies , Florian Günther , Jens Harting
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