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Home page > Séminaires > Archives séminaires > Séminaires 2015 > Séminaire MSC. Lundi 02 novembre 2015. Thomas Gibaud (Ens Lyon).

Séminaire MSC. Lundi 02 novembre 2015. Thomas Gibaud (Ens Lyon)

Sauf mention contraire, les séminaires et les soutenances se déroulent à 11h30 en salle 454A du bâtiment Condorcet.

Thomas Gibaud, Laboratoire de Physique de l’Ens Lyon, Paris

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Hierarchical self-assembly of colloidal membranes

Nature excels at building complex functional materials. We however are far from understanding the structure and mechanism involved in those materials and even further from being able to replicate equivalent materials. Here, we use stiff colloidal rods as minimalist building blocks to mimic biological structures such as membranes. The colloidal nature of the building blocks allows up-scaling the size and slowing the dynamics of the resulting self-assembled structure allowing better visualization and manipulation. The colloidal synthesis is based on synthetic biology which allows via mutation to engineer libraries of colloidal-rods with control over their aspect ratio, stiffness, and chirality. This control is critical to pin down the physical essence of the material properties and allows a theoretical approach. We show that monodisperse rods can self-assemble in a monolayer of aligned rods that behave on a coarse grained level like lipid bilayers. The versatility of this system permits to tackles issues related to chirality like its interplay with interfacial tension, the transition toward twisted ribbons (fig. left) [1], coalescence [2] and also membrane rafts and micro-phase separation (fig. right) [3]

[1] Self-assembly through chiral control of interfacial tension. T. Gibaud, E. Barry, M. Zakhary, M. Henglin, A. Ward, Y. Yang, C. Berciu, R. Oldenbourg, M. Hagan, D. Nicastro, R. Meyer, Z. Dogic. Nature 481, 348 (2012)

[2] Imprintable membranes from incomplete chiral coalescence. M. Zakhary*, T. Gibaud*, N. Kaplan, E. Barry, R. Meyer, and Z. Dogic. Nature Communications 5, 3063 (2014)

[3] Hierarchical organization of chiral rafts in colloidal membranes. P. Sharma*, A. Ward*, T. Gibaud, M. Hagan and Z. Dogic. Nature 513, 77 (2014)

Contact : Équipe séminaires / Seminar team - Published on / Publié le 24 juillet 2015

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