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Article Dans Une Revue Nano Letters Année : 2023

Thermally Switchable Nanogate Based on Polymer Phase Transition

Philippe Guégan
Fabien Montel

Résumé

Mimicking and extending the gating properties of biological pores is of paramount interest for the fabrication of membranes that could be used in filtration or drug processing. Here, we build a selective and switchable nanopore for macromolecular cargo transport. Our approach exploits polymer graftings within artificial nanopores to control the translocation of biomolecules. To measure transport at the scale of individual biomolecules, we use fluorescence microscopy with a zero-mode waveguide set up. We show that grafting polymers that exhibit a lower critical solution temperature creates a toggle switch between an open and closed state of the nanopore depending on the temperature. We demonstrate tight control over the transport of DNA and viral capsids with a sharp transition (∼1 °C) and present a simple physical model that predicts key features of this transition. Our approach provides the potential for controllable and responsive nanopores in a range of applications.
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Dates et versions

hal-04131308 , version 1 (16-06-2023)

Identifiants

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Pauline J Kolbeck, Dihia Benaoudia, Léa Chazot-Franguiadakis, Gwendoline Delecourt, Jérôme Mathé, et al.. Thermally Switchable Nanogate Based on Polymer Phase Transition. Nano Letters, 2023, 23 (11), pp.4862-4869. ⟨10.1021/acs.nanolett.3c00438⟩. ⟨hal-04131308⟩
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