Ozyilmaz, Ali Tuncay; Ozgen, Begum; Celik, Cumali published the artcile< Poly(o-aminobenzyl alcohol) films with and without organic compound on AISI 316 surface; synthesis and the corrosion performances>, Synthetic Route of 5344-90-1, the main research area is aminobenzyl alc organic compound corrosion performance.
In this work, we obtained the anticorrosive properties of polymer films (SS/PABA and SS/PABAORG) synthesized on stainless steel surface by adding an organic substance to aniline derived oaminobenzyl alc. monomer synthesis medium. Firstly, we prepared the polymer coating bath by dissolving 0.15 M o -aminobenzyl alc. monomer in the electrolyte solvent containing acetonitrile and 0.15 M LiClO4. From this bath, poly (o-aminobenzyl alc.) (PABA) film was synthesized in 30 segments by cyclic voltammetry (CV) technique at a scanning rate of 50 mV/s at a potential range of -0.20/1.80 V on the AISI 316 (SS) working electrode in contrast to the platinum electrode. For the synthesis of organic structure doped polymer film (PABA-ORG), we repeated the same synthesis process by dissolving C21H27NO2(k) (ORG) at low concentration in the same bath. We investigated the corrosion performances of bare SS, SS/PABA, and SS/PABA-ORG substrates, using open circuit potential – time, anodic polarization, and AC impedance techniques in the solution of corrosion study. As a result, we observed that the organic additive added to the synthesis medium caused changes in the synthesis behavior of PABA. Corrosion performance tests showed that PABA and PABA-ORG films increased the corrosion protection performance of the SS electrode, and we observed a reduction of the corrosion rate of the SS electrode.
Journal of the Turkish Chemical Society, Section A: Chemistry published new progress about Anodic polarization. 5344-90-1 belongs to class alcohols-buliding-blocks, and the molecular formula is C7H9NO, Synthetic Route of 5344-90-1.
Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts