par Mattiuzzi, Alice 
;Troian Gautier, Ludovic ;Mertens, Jeremy ;Reniers, François ;Bergamini, Jean-François;Lenne, Quentin;Lagrost, Corinne;Jabin, Ivan
Référence RSC Advances, 10, 23, page (13553-13561)
Publication Publié, 2020-04-01
;Troian Gautier, Ludovic ;Mertens, Jeremy ;Reniers, François ;Bergamini, Jean-François;Lenne, Quentin;Lagrost, Corinne;Jabin, Ivan Référence RSC Advances, 10, 23, page (13553-13561)
Publication Publié, 2020-04-01
Article révisé par les pairs
| Résumé : | The grafting of a polyfluorinated calix[4]arene-tetradiazonium derivative on various surfaces led to the formation of very robust and stable hydrophobic monolayers. |
| The (electro)chemical grafting of a polyfluorinated calix[4]arene on gold, polypropylene and glass is reported. The modified surfaces were characterized by ellipsometry, atomic force microscopy (AFM), and by X-ray photoelectron spectroscopy (XPS). A nanometric, robust and uniform monolayer of covalently surface-bound calix[4]arenes was obtained on the three different materials. For all surfaces, contact angles higher than 110° were recorded, highlighting the hydrophobic character given by this ∼2 nm thin organic monolayer. Remarkably, the contact angle values remained unchanged after 18 months under a laboratory atmosphere. The results presented herein thus present an attractive and sustainable strategy for bringing hydrophobic properties to the interface of a wide range of materials. |
