Graphene nanoencapsulation action at an air/lipid interface.
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2022
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In the present work, we apply a microfluidic channel platform to study mechanical and adhesion properties of suspended graphene in contact with oleic acid (a lipid). In the platform, one side of the suspended graphene, atop a window in a fluidic channel, is placed in contact with the lipid, and the
mechanical response of graphene is experimentally accessed with an atomic force microscope probe. We observe a strong effect arising from the presence of oleic acid: the probe undergoes a large jump-to-contact effect, being pulled and partially encapsulated by graphene, in a phagocytosis-like phenomenon, until it penetrates 0.2 lm into graphene. In contrast, such encapsulation effect is neg-
ligible in the absence of oleic acid in the channel, with probe penetration of less than 0.02 lm. The lipid-induced encapsulation effect is observed to occur concurrently with graphene delamination from the window walls. Molecular dynamics simulations and continuum mechanics analytical modeling are also
performed, the latter allowing quantitative fittings to the experiments.
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FERRARI, G. A. et al. Graphene nanoencapsulation action at an air/lipid interface. Journal of Materials Science, v. 57, p. 6224-6232, 2022. Disponível em: <https://link.springer.com/article/10.1007/s10853-022-07030-0>. Acesso em: 06 jul. 2022.