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Control of seed formation allows two distinct self-sorting patterns of supramolecular nanofibers

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  • Ryou Kubota

    (Kyoto University, Katsura, Nishikyo-ku)

  • Kazutoshi Nagao

    (Kyoto University, Katsura, Nishikyo-ku)

  • Wataru Tanaka

    (Kyoto University, Katsura, Nishikyo-ku)

  • Ryotaro Matsumura

    (Kyoto University, Katsura, Nishikyo-ku)

  • Takuma Aoyama

    (Kyoto Institute of Technology, Matsugasaki)

  • Kenji Urayama

    (Kyoto Institute of Technology, Matsugasaki)

  • Itaru Hamachi

    (Kyoto University, Katsura, Nishikyo-ku
    Kyoto University, Katsura, Nishikyo-ku)

Abstract

Self-sorting double network hydrogels comprising orthogonal supramolecular nanofibers have attracted attention as artificially-regulated multi-component systems. Regulation of network patterns of self-sorted nanofibers is considered as a key for potential applications such as optoelectronics, but still challenging owing to a lack of useful methods to prepare and analyze the network patterns. Herein, we describe the selective construction of two distinct self-sorting network patterns, interpenetrated and parallel, by controlling the kinetics of seed formation with dynamic covalent oxime chemistry. Confocal imaging reveals the interpenetrated self-sorting network was formed upon addition of O-benzylhydroxylamine to a benzaldehyde-tethered peptide-type hydrogelator in the presence of lipid-type nanofibers. We also succeed in construction of a parallel self-sorting network through deceleration of seed formation using a slow oxime exchange reaction. Through careful observation, the formation of peptide-type seeds and nanofibers is shown to predominantly occur on the surface of the lipid-type nanofibers via highly dynamic and thermally-fluctuated processes.

Suggested Citation

  • Ryou Kubota & Kazutoshi Nagao & Wataru Tanaka & Ryotaro Matsumura & Takuma Aoyama & Kenji Urayama & Itaru Hamachi, 2020. "Control of seed formation allows two distinct self-sorting patterns of supramolecular nanofibers," Nature Communications, Nature, vol. 11(1), pages 1-13, December.
  • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-17984-x
    DOI: 10.1038/s41467-020-17984-x
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    Cited by:

    1. Richard Booth & Ignacio Insua & Sahnawaz Ahmed & Alicia Rioboo & Javier Montenegro, 2021. "Supramolecular fibrillation of peptide amphiphiles induces environmental responses in aqueous droplets," Nature Communications, Nature, vol. 12(1), pages 1-8, December.

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