Natural aging of multilayer films containing hydrophobically modified poly(acrylate)s or their complexes with surfactants

•Aging time effect (12 month) on electrostatically deposited films is studied.•In aged films PACnNa (n=10, 18) or PACnNa-CxTAB (x=10–18) alternates with PDADMAC.•Aged films have notably higher contact angles (CA) than those freshly prepared.•Five aged bilayers have the same CA as sixty freshly prepa...

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Bibliographic Details
Published in:Applied surface science 2017-08, Vol.412, p.489-496
Main Authors: Gîfu, Ioana Cătălina, Maxim, Monica Elisabeta, Iovescu, Alina, Aricov, Ludmila, Simion, Elena Livia, Leontieş, Anca Ruxandra, Anastasescu, Mihai, Munteanu, Cornel, Anghel, Dan-Florin
Format: Article
Language:English
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Summary:•Aging time effect (12 month) on electrostatically deposited films is studied.•In aged films PACnNa (n=10, 18) or PACnNa-CxTAB (x=10–18) alternates with PDADMAC.•Aged films have notably higher contact angles (CA) than those freshly prepared.•Five aged bilayers have the same CA as sixty freshly prepared bilayers.•PDADMAC outer layer increases the contact angle of the films. The paper reports the natural aging of polyelectrolyte multilayers containing sodium hydrophobically modified poly(acrylates) (PACnNa, n=10 and 18) or complexes of PACnNa with alkyltrimethylammonium bromides (CxTAB, x=10, 12, 14, 18) and poly(diallyldimethylammonium chloride) (PDADMAC). Wettability, thickness and surface morphology of aged multilayers are compared with those of freshly made. Contact angle (CA) increases with the alkyl chain length of the PACnNa and of the CxTAB in the complex with PACnNa. Wettability measurements unveil that only five bilayers of alternatively deposited PAC18Na-C18TAB and PDADMAC reach in 12 months the same CA as sixty freshly prepared bilayers. The PDADMAC outer layer gives higher CA and root mean square roughness than the negatively terminated multilayers. The results are significant for gaining new insight into the underlying mechanism of multilayers aging, saving materials, and improving the surface coatings for long term preservation.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2017.03.250