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Matière Molle
(414) Articles dans des revues
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Aggregate Formation of Surface-Modified Nanoparticles in Solvents and Polymer Nanocomposites
Auteur(s): Musino D., Genix A.-C., Chaussee Thomas, Guy Laurent, Meissner Natalia, Kozak Radoslaw, Bizien Thomas, Oberdisse J.
(Article) Publié:
Langmuir, vol. 34 p.3010-3020 (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01768107_v1
PMID 29443532
Ref Arxiv: 2007.15470
DOI: 10.1021/acs.langmuir.7b03932
WoS: WOS:000427095400012
Ref. & Cit.: NASA ADS
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9 Citations
Résumé: A new method based on the combination of small-anglescattering, reverse Monte Carlo simulations, and an aggregate recognition algorithm is proposed to characterize the structure of nanoparticle suspensions in solvents and polymer nanocomposites, allowing detailedstudies of the impact of different nanoparticle surface modifications.Experimental small-angle scattering is reproduced using simulated annealing of configurations of polydisperse particles in a simulation box compatible with the lowest experimental q-vector. Then, properties of interest likeaggregation states are extracted from these configurations and averaged. This approach has been applied to silane surface-modified silica nanoparticles with different grafting groups, in solvents and after casting into polymer matrices.It is shown that the chemistry of the silane function, in particular mono- or trifunctionality possibly related to patch formation, affects the dispersion state in a given medium, in spite of an unchanged alkylchain length. Our approach may be applied to study any dispersion or aggregation state of nanoparticles. Concerningnanocomposites, the method has potential impact on the design of new formulations allowing controlled tuning of nanoparticle dispersion.
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Impact of Beads and Drops on a Repellent Solid Surface: A Unified Description
Auteur(s): Arora S., Fromental J.-M., Mora S., Phou T., Ramos L., Ligoure C.
(Article) Publié:
Physical Review Letters, vol. 120 p.148003 (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01761380_v1
DOI: 10.1103/PhysRevLett.120.148003
WoS: 000429451000016
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5 Citations
Résumé: We investigate freely expanding sheets formed by ultrasoft gel beads, and liquid and viscoelastic drops, produced by the impact of the bead or drop on a silicon wafer covered with a thin layer of liquid nitrogen that suppresses viscous dissipation thanks to an inverse Leidenfrost effect. Our experiments show a unified behavior for the impact dynamics that holds for solids, liquids, and viscoelastic fluids and that we rationalize by properly taking into account elastocapillary effects. In this framework, the classical impact dynamics of solids and liquids, as far as viscous dissipation is negligible, appears as the asymptotic limits of a universal theoretical description. A novel material-dependent characteristic velocity that includes both capillary and bulk elasticity emerges from this unified description of the physics of impact.
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Role of spatial heterogeneity in the collective dynamics of cilia beating in a minimal one-dimensional model
Auteur(s): Dey S., Massiera G., Pitard E.
(Article) Publié:
Physical Review E: Statistical, Nonlinear, And Soft Matter Physics, vol. 97 p.012403 (2018)
Texte intégral en Openaccess :
Ref HAL: hal-01735760_v1
DOI: 10.1103/PhysRevE.97.012403
WoS: WOS:000423129000005
Exporter : BibTex | endNote
2 Citations
Résumé: Cilia are elastic hairlike protuberances of the cell membrane found in various unicellular organisms and in several tissues of most living organisms. In some tissues such as the airway tissues of the lung, the coordinated beating of cilia induce a fluid flow of crucial importance as it allows the continuous cleaning of our bronchia, known as mucociliary clearance. While most of the models addressing the question of collective dynamics and metachronal wave consider homogeneous carpets of cilia, experimental observations rather show that cilia clusters are heterogeneously distributed over the tissue surface. The purpose of this paper is to investigate the role of spatial heterogeneity on the coherent beating of cilia using a very simple one dimensional model for cilia known as the rower model. We systematically study systems consisting of a few rowers to hundreds of rowers and we investigate the conditions for the emergence of collective beating. When considering a small number of rowers, a phase drift occurs, hence a bifurcation in beating frequency is observed as the distance between rowers clusters is changed. In the case of many rowers, a distribution of frequencies is observed. We found in particular the pattern of the patchy structure that shows the best robustness in collective beating behavior, as the density of cilia is varied over a wide range.
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Mathematics of pattern growth in condensed matter Interfacial Wave Theory of Pattern Formation in Solidification: Dendrites, Fingers, Cells and Free Boundaries , Jian-Jun Xu, Springer, 2017 (2nd ed.). $159.00
Auteur(s): Truzzolillo D.
(Article) Publié:
Physics Today, vol. 71 p.56 - 57 (2018)
Texte intégral en Openaccess :
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Hydrodynamic instabilities in miscible fluids
Auteur(s): Truzzolillo D., Cipelletti L.
(Article) Publié:
Journal Of Physics: Condensed Matter, vol. 30 p.033001 (2018)
Texte intégral en Openaccess :
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Asymmetric soft-hard colloidal mixtures: Osmotic effects, glassy states and rheology
Auteur(s): Merola Maria Consiglia, Parisi Daniele, Truzzolillo D., Vlassopoulos Dimitris, Deepak Vishnu D., Gauthier Mario
(Article) Publié:
Journal Of Rheology / Transactions Of The Society Of Rheology; Society Of Rheology -- Transactions, vol. 62 p.63 - 79 (2018)
Texte intégral en Openaccess :
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Dynamic behaviour of multilamellar vesicles under Poiseuille flow
Auteur(s): Pommella A., Donnarumma D., Caserta S., Guido S.
(Article) Publié:
Soft Matter, vol. 13 p.6304-6313 (2017)
Texte intégral en Openaccess :
Ref HAL: hal-03344614_v1
DOI: 10.1039/C7SM00867H
Exporter : BibTex | endNote
Résumé: Surfactant solutions exhibit multilamellar surfactant vesicles (MLVs) under flow conditions and in concentration ranges which are found in a large number of industrial applications. MLVs are typically formed from a lamellar phase and play an important role in determining the rheological properties of surfactant solutions. Despite the wide literature on the collective dynamics of flowing MLVs, investigations into the flow behavior of single MLVs are scarce. In this work, we investigate a concentrated aqueous solution of linear alkylbenzene sulfonic acid (HLAS), characterized by MLVs dispersed in an isotropic micellar phase. Rheological tests show that the HLAS solution is a shear-thinning fluid with a power law index dependent on the shear rate. Pressure-driven shear flow of the HLAS solution in glass capillaries is investigated using high-speed video microscopy and image analysis. The so obtained velocity profiles provide evidence for a power-law fluid behaviour of the HLAS solution and images show a flow-focusing effect of the lamellar phase in the central core of the capillary. The flow behavior of individual MLVs shows analogies with that of unilamellar vesicles and emulsion droplets. Deformed MLVs exhibit typical shapes of unilamellar vesicles, such as parachute and bullet-like. Furthermore, MLV velocity follows the classical Hetsroni theory for droplets provided that the power law shear dependent viscosity of the HLAS solution is taken into account. The results of this work are relevant for the processing of surfactant-based systems in which the final properties depend on the flow-induced morphology, such as cosmetic formulations and food products.
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