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AuthorKhan, Adnan
AuthorHassanein, Amani
AuthorHabib, Sehrish
AuthorNawaz, Muddasir
AuthorShakoor, R. A.
AuthorKahraman, Ramazan
Available date2022-10-05T07:23:06Z
Publication Date2020
Publication NameACS Applied Materials and Interfaces
ResourceScopus
URIhttp://dx.doi.org/10.1021/acsami.0c08953
URIhttp://hdl.handle.net/10576/34836
AbstractNovel hybrid halloysite nanotubes (HHNTs) were developed and used as smart carriers for corrosion protection of steel. For this purpose, as-received halloysite nanotubes (HNTs) were loaded with a corrosion inhibitor, imidazole (IM), by vacuum encapsulation. In the next step, a layer by layer technique was employed to intercalate another inhibitor, dodecylamine (DDA), in the polyelectrolyte multilayers of polyethylenimine and sulfonated polyether ether ketone, leading to the formation of HHNTs. During this process, IM (5 wt %) was successfully encapsulated into the lumen of HNTs, while DDA (0.4 wt %) was effectively intercalated into the polyelectrolyte layers. Later, the HHNTs (3 wt %) were thoroughly dispersed into the epoxy matrix to develop smart hybrid self-healing polymeric coatings designated as hybrid coatings. For a precise evaluation, epoxy coatings containing as-received HNTs (3 wt %) without any loading denoted to as reference coatings and modified coatings containing HNTs loaded with IM-loaded HNTs (3 wt %) were also developed. A comparative analysis elucidates that the hybrid coatings demonstrate decent thermal stability, improved mechanical properties, and promising anticorrosion properties compared to the reference and modified coatings. The calculated corrosion inhibition efficiencies of the modified and hybrid coatings are 92 and 99.8%, respectively, when compared to the reference coatings. Noticeably, the superior anticorrosion properties of hybrid coatings can be attributed to the synergetic effect of both the inhibitors loaded into HHNTs and their efficient release in response to the localized pH change of the corrosive medium. Moreover, IM shows an active release in both acidic and basic media, which makes it suitable for the protection of steel at the early stages of damage, while DDA being efficiently released in the acidic medium may contribute to impeding the corrosion activity at the later stages of deterioration. The tempting properties of hybrid coatings demonstrate the beneficial role of the development of novel HHNTs and their use as smart carriers in the polymeric matrix for corrosion protection of steel.
SponsorThis publication was made possible by NPRP11S-1226-170132 from Qatar National Research Fund (a member of the Qatar Foundation). Statements made herein are solely the responsibility of the authors. The authors would like to thank the Central laboratory Unit (CLU), Qatar University, for SEM analysis. The authors also acknowledge the support of Core lab-QEERI (HBKU) for proving TEM analysis.
Languageen
PublisherAmerican Chemical Society
Subjectcorrosion inhibition
dodecylamine
hybrid halloysite nanotubes
imidazole
smart coatings
TitleHybrid Halloysite Nanotubes as Smart Carriers for Corrosion Protection
TypeArticle
Pagination37571-37584
Issue Number33
Volume Number12
dc.accessType Open Access


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