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Matière Molle
(414) Articles dans des revues
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4D compressive sensing holographic microscopy imaging of small moving objects
Auteur(s): Brodoline A., Rawat Nitin, Alexandre D., Cubedo Nicolas, Gross M.
(Article) Publié:
Optics Letters, vol. 44 p.2827 (2019)
Texte intégral en Openaccess :
Ref HAL: hal-02189448_v1
DOI: 10.1364/OL.44.002827
WoS: 000469838100055
Exporter : BibTex | endNote
11 Citations
Résumé: We show that compressive sensing (CS) calculations are very ecient to reconstruct in 3D sparse objects whose 2D hologram has been recorded by digital holographic microscopy. The method is well adapted to image small scattering objects moving within a larger motionless object. This situation corresponds to red blood cells (RBCs) circulating in the vascular system of a zebrash (Danio rerio) larva. RBCs positions are imaged in 3D from a single hologram, while the RBCs trajectories, i.e. the perfused blood vessels, are imaged from a sequence of holograms. With respect to previous work (Donnarumma et al., Opt. express, 24, 26887, 2016), we get a gain of ∼ 500 in calculation speed.
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Effect of Molecular Crowding on Conformation and Interactions of Single-Chain Nanoparticles
Auteur(s): Oberdisse J., Gonzalez-Burgos Marina, Mendia Ander, Arbe Arantxa, Moreno Angel J., Pomposo Jose A., Radulescu Aurel, Colmenero Juan
(Article) Publié:
Macromolecules, vol. 52 p.4295-4305 (2019)
Texte intégral en Openaccess :
Ref HAL: hal-02169239_v1
DOI: 10.1021/acs.macromol.9b00506
WoS: WOS:000471729000033
Exporter : BibTex | endNote
5 Citations
Résumé: The conformation of single-chain nanoparticles (SCNPs) in presence of linear polystyrene crowding molecules has been studied by small-angle neutron scattering under contrast-matching of the crowders. A model describing the scattering of aggregating polydisperse SCNPs has been developed, resulting in the determination of the potentially squeezed size of the individual SCNPs within aggregates, their local chain statistics, and the average aggregation number, as a function of crowding. Two different crowders – of low and high molecular weight, respectively – are shown to have a different effect: while long chains tend to impede their aggregation above their overlap concentration, short ones are found to mediate depletion interactions leading to aggregation. Self-imposed crowding within the aggregates has a similar impact on chain conformation independently of the crowding of the surrounding medium. Our results are compared to recent simulations and shall contribute to the microscopic understanding of the phase behavior of soft intrinsically disordered nano-objects, and in particular the effect of crowding on biomacromolecules.
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Understanding the Static Interfacial Polymer Layer by Exploring the Dispersion States of Nanocomposites
Auteur(s): Genix A.-C., Bocharova Vera, Carroll Bobby, Lehmann Michelle, Saito Tomonori, Krueger Susan, He Lilin, Dieudonne-George P., Sokolov Alexei P., Oberdisse J.
(Article) Publié:
Acs Appl. Mater. Interfaces, vol. 11 p.17863-17872 (2019)
Ref HAL: hal-02157552_v1
DOI: 10.1021/acsami.9b04553
WoS: WOS:000468364500082
Exporter : BibTex | endNote
4 Citations
Résumé: The dynamic and static properties of the interfacial region between polymer and nanoparticles have wide-ranging consequences on performances of nanomaterials. The thickness and density of the static layer are particularly difficult to assess experimentally due to superimposing nanoparticle interactions. Here, we tune the dispersion of silica nanoparticles in nanocomposites by pre-adsorption of polymer layers in the precursor solutions, and by varying the molecular weight of the matrix chains. Nanocomposite structures ranging from ideal dispersion to repulsive order or various degrees of aggregation are generated and observed by small-angle scattering. Pre-adsorbed chains are found to promote ideal dispersion, before desorption in the late stages of nanocomposite formation. The microstructure of the interfacial polymer layer is characterized by detailed modeling of X-ray and neutron scattering. Only in ideally well-dispersed systems a static interfacial layer of reduced polymer density over a thickness of ca. 2 nm is evidenced based on the analysis with a form-free density profile optimized using numerical simulations. This interfacial gradient layer is found to be independent of the thickness of the initially adsorbed polymer, but appears to be generated by out-of-equilibrium packing and folding of the pre-adsorbed layer. The impact of annealing is investigated to study the approach of equilibrium, showing that initially ideally well-dispersed systems adopt a repulsive hard-sphere structure, while the static interfacial layer disappears. This study thus promotes the fundamental understanding of the interplay between effects which are decisive for macroscopic material properties: polymer-mediated interparticle interactions, and particle interfacial effects on surrounding polymer.
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Passive and active microrheology of a lyotropic chromonic nematic liquid crystal disodium cromoglycate
Auteur(s): Habibi Ahlem, Blanc C., Mbarek Nadia Ben, Soltani Taoufik
(Article) Publié:
Journal Of Molecular Liquids, vol. 288 p.111027 (2019)
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Coupling Space-Resolved Dynamic Light Scattering and Rheometry to Investigate Heterogeneous Flow and Nonaffine Dynamics in Glassy and Jammed Soft Matter
Auteur(s): Pommella A., Philippe A. M., Phou T., Ramos L., Cipelletti L.
(Article) Publié:
Physical Review Applied, vol. 11 p.034073 (2019)
Texte intégral en Openaccess :
Ref HAL: hal-03029048_v1
Ref Arxiv: 1809.00506
DOI: 10.1103/PhysRevApplied.11.034073
WoS: 000462959200003
Ref. & Cit.: NASA ADS
Exporter : BibTex | endNote
2 Citations
Résumé: We present a new light scattering setup coupled to a commercial rheometer operated in the plate-plate geometry. The apparatus allows the microscopic dynamics to be measured, discriminating between the contribution due to the affine deformation and additional mechanisms, such as plasticity. Light backscattered by the sample is collected using an imaging optical layout, thereby allowing the average flow velocity and the microscopic dynamics to be probed with both spatial and temporal resolution. We successfully test the setup by measuring the Brownian diffusion and flow velocity of diluted colloidal suspensions, both at rest and under shear. The potentiality of the apparatus are explored in the startup shear of a biogel. For small shear deformations, $\gamma \le 2\%$, the rheological response of the gel is linear. However, striking deviations from affine flow are seen from the very onset of deformation, due to temporally and spatially heterogeneous rearrangements bearing intriguing similarities with a stick-slip process.
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Deuteration-Induced Volume Phase Transition Temperature Shift of PNIPMAM Microgels
Auteur(s): Cors M., Wiehemeier Lars, Oberdisse J., Hellweg Thomas
(Article) Publié:
Polymers, vol. 11 p.620 (2019)
Texte intégral en Openaccess :
Ref HAL: hal-02092623_v1
DOI: 10.3390/polym11040620
WoS: 000467312900049
Exporter : BibTex | endNote
5 Citations
Résumé: The effect of deuteration on the volume phase transition (VPT) temperature of poly (N-isopropylmethacrylamide) (pNIPMAM) microgels in aqueous suspension is determined via IR spectroscopy and size measurements by photon correlation spectroscopy (PCS). We study the effect of a hydrogenated and a deuterated solvent ($H_{2}O/D_{2}O), and of the hydrogenated and (partially) deuterated monomer. Deuteration of the monomer or copolymerization with deuterated monomers shifts the volume phase transition temperature (VPTT) by up to 8.4 K to higher temperatures, in good agreement with known results for pNIPAM microgels. Moreover, the shape of the swelling curve is found to depend on deuteration, with the highest deuteration leading to the sharpest VPT. Finally, the quantitative agreement between FTIR spectroscopy and PCS evidences the spatial homogeneity of the microgel particles. Our results are rationalized in terms of the effect of deuteration on hydrogen bonding. They shall be of primary importance for any experimental measurements close to the VPT involving isotopic substitution, and in particular contrast variation small angle neutron scattering.
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Bronchial Epithelial Calcium Metabolism Impairment in Smokers and Chronic Obstructive Pulmonary Disease Decreased ORAI3 Signaling
Auteur(s): Petit Aurelie, Knabe Lucie, Khelloufi Kamel, Jory M., Gras Delphine, Cabon Yann, Begg Malcolm, Richard Sylvain, Massiera G., Chanez Pascal, Vachier Isabelle, Bourdin Arnaud
(Article) Publié:
American Journal Of Respiratory Cell And Molecular Biology, vol. 61 p.501-511 (2019)
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