Biomimetic solution against dewetting in a highly hydrophobic nanopore.
Fiche publication
Date publication
juin 2016
Journal
Soft matter
Auteurs
Membres identifiés du Cancéropôle Est :
Dr PICAUD Fabien
Tous les auteurs :
Picaud F, Paris G, Gharbi T, Balme S, Lepoitevin M, Tangaraj V, Bechelany M, Janot JM, Balanzat E, Henn F
Lien Pubmed
Résumé
A water molecule is the foundation of life and is the primary compound in every living system. While many of its properties are understood in a bulk solvent, its behavior in a small hydrophobic nanopore still raises fundamental questions. For instance, a wetting/dewetting transition in a hydrophobic solid-state or a polymer nanopore occurs stochastically and can only be prevented by external physical stimuli. Controlling these transitions would be a primary requirement to improve many applications. Some biological channels, such as gramicidin A (gA) proteins, show a high rate of water and ion diffusion in their central subnanochannel while their external surface is highly hydrophobic. The diameter of this channel is significantly smaller than the inner size of the lowest artificial nanopore in which water drying occurs (i.e. 1.4 nm). In this paper, we propose an innovative idea to generate nanopore wetting as a result of which the application of an external field is no longer required. In a nanopore, the drying or wetting of the inner walls occurs randomly (in experiments and in simulations). However, we have shown how the confinement of gA, in a dried hydrophobic nanopore, rapidly generates a stable wetting of the latter. We believe that this simple idea, based on biomimetism, could represent a real breakthrough that could help to improve and develop new nanoscale applications.
Mots clés
Biomimetics, Diffusion, Hydrophobic and Hydrophilic Interactions, Nanopores, Wettability
Référence
Soft Matter. 2016 Jun 14;12(22):4903-11