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Morphogenesis of filaments growing in flexible confinements

Author

Listed:
  • R. Vetter

    (Computational Physics for Engineering Materials, IfB, ETH Zurich, Stefano-Franscini-Platz 3)

  • F. K. Wittel

    (Computational Physics for Engineering Materials, IfB, ETH Zurich, Stefano-Franscini-Platz 3)

  • H. J. Herrmann

    (Computational Physics for Engineering Materials, IfB, ETH Zurich, Stefano-Franscini-Platz 3)

Abstract

Space-saving design is a requirement that is encountered in biological systems and the development of modern technological devices alike. Many living organisms dynamically pack their polymer chains, filaments or membranes inside deformable vesicles or soft tissue-like cell walls, chorions and buds. Surprisingly little is known about morphogenesis due to growth in flexible confinements—perhaps owing to the daunting complexity lying in the nonlinear feedback between packed material and expandable cavity. Here we show by experiments and simulations how geometric and material properties lead to a plethora of morphologies when elastic filaments are growing far beyond the equilibrium size of a flexible thin sheet they are confined in. Depending on friction, sheet flexibility and thickness, we identify four distinct morphological phases emerging from bifurcation and present the corresponding phase diagram. Four order parameters quantifying the transitions between these phases are proposed.

Suggested Citation

  • R. Vetter & F. K. Wittel & H. J. Herrmann, 2014. "Morphogenesis of filaments growing in flexible confinements," Nature Communications, Nature, vol. 5(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms5437
    DOI: 10.1038/ncomms5437
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