SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4308561103> ?p ?o ?g. }

Showing items 1 to 100 of ±151 with 100 items per page.

W4308561103 endingPage "130540" @default.
W4308561103 startingPage "130540" @default.
W4308561103 abstract "Due to environmental awarenesses and strict restrictions, industries are forced to bring their processes closer to the considered eco-friendly standards. Without a doubt, corrosion is the most obvious problem in industries and inhibitors are among the most applicable materials for metals' corrosion retardation. For this reason, extensive studies have been conducted in the field of green corrosion inhibitors in recent years. The present work concentrated on the evaluation of the bio-molecules from Mint leaves extract on the steel corrosion mitigation in HCl solution. The Mint extract (ME) structures were investigated by FTIR, UV-Vis, and Raman spectroscopies. It was shown by a polarization experiment that Mint extract at 800 ppm caused the current density (icorr) reduction from 1.03 mA/cm2 (for the blank sample) to 0.11 mA/cm2 which was aided by a mixed inhibition (cathodic – anodic) mechanism. The EIS results illustrated that at the optimum condition around 91 % inhibition degree was reached after introducing 800 ppm Mint extract. The weight loss investigations, however, affirmed that a 92 % efficiency was achievable at 25 °C, which was mitigated to 89 % at 55 °C. Eventually, the thermodynamic and adsorption isotherm records represented that Mint extract molecules mono-layer was constructed by utilizing the exothermic interactions. Via the MD and DFT simulations, the interfacial interactions and corrosion inhibitors' adsorption mechanism over the steel surface was exhibited." @default.
W4308561103 created "2022-11-12" @default.
W4308561103 creator A5010252124 @default.
W4308561103 creator A5042791185 @default.
W4308561103 creator A5042852925 @default.
W4308561103 creator A5061776373 @default.
W4308561103 date "2023-01-01" @default.
W4308561103 modified "2023-09-24" @default.
W4308561103 title "Application of green active bio-molecules from the aquatic extract of Mint leaves for steel corrosion control in hydrochloric acid (1M) solution: Surface, electrochemical, and theoretical explorations" @default.
W4308561103 cites W1775051427 @default.
W4308561103 cites W1996353182 @default.
W4308561103 cites W1996472756 @default.
W4308561103 cites W2000838113 @default.
W4308561103 cites W2002850067 @default.
W4308561103 cites W2014430767 @default.
W4308561103 cites W2019591946 @default.
W4308561103 cites W2022914479 @default.
W4308561103 cites W2026189639 @default.
W4308561103 cites W2070240032 @default.
W4308561103 cites W2071933102 @default.
W4308561103 cites W2074277458 @default.
W4308561103 cites W2075940377 @default.
W4308561103 cites W2078587657 @default.
W4308561103 cites W2081506343 @default.
W4308561103 cites W2092839065 @default.
W4308561103 cites W2164515069 @default.
W4308561103 cites W2302130238 @default.
W4308561103 cites W2560469323 @default.
W4308561103 cites W2737581811 @default.
W4308561103 cites W2737854965 @default.
W4308561103 cites W2750114421 @default.
W4308561103 cites W2754962649 @default.
W4308561103 cites W2779637161 @default.
W4308561103 cites W2782716872 @default.
W4308561103 cites W2789770453 @default.
W4308561103 cites W2790341135 @default.
W4308561103 cites W2790420268 @default.
W4308561103 cites W2791057627 @default.
W4308561103 cites W2791882124 @default.
W4308561103 cites W2793467983 @default.
W4308561103 cites W2801007912 @default.
W4308561103 cites W2801896177 @default.
W4308561103 cites W2810746739 @default.
W4308561103 cites W2854361726 @default.
W4308561103 cites W2888651207 @default.
W4308561103 cites W2898834147 @default.
W4308561103 cites W2899949957 @default.
W4308561103 cites W2902413769 @default.
W4308561103 cites W2902498044 @default.
W4308561103 cites W2904407284 @default.
W4308561103 cites W2908835309 @default.
W4308561103 cites W2912146837 @default.
W4308561103 cites W2917538525 @default.
W4308561103 cites W2921501130 @default.
W4308561103 cites W2936519370 @default.
W4308561103 cites W2945532827 @default.
W4308561103 cites W2971043086 @default.
W4308561103 cites W2979939399 @default.
W4308561103 cites W2981166636 @default.
W4308561103 cites W2988147869 @default.
W4308561103 cites W3004772743 @default.
W4308561103 cites W3008547525 @default.
W4308561103 cites W3009674280 @default.
W4308561103 cites W3023546538 @default.
W4308561103 cites W3074209945 @default.
W4308561103 cites W3081821506 @default.
W4308561103 cites W3092705288 @default.
W4308561103 cites W3092932673 @default.
W4308561103 cites W3093284842 @default.
W4308561103 cites W3107902022 @default.
W4308561103 cites W3112936617 @default.
W4308561103 cites W3126915302 @default.
W4308561103 cites W3134734484 @default.
W4308561103 cites W3155091989 @default.
W4308561103 cites W3156309975 @default.
W4308561103 cites W3157490309 @default.
W4308561103 cites W3161993990 @default.
W4308561103 cites W3162437585 @default.
W4308561103 cites W3175719437 @default.
W4308561103 cites W3184453588 @default.
W4308561103 cites W3186912490 @default.
W4308561103 cites W3203372219 @default.
W4308561103 cites W3205778759 @default.
W4308561103 cites W4210570717 @default.
W4308561103 cites W4213203614 @default.
W4308561103 cites W4286687053 @default.
W4308561103 doi "https://doi.org/10.1016/j.colsurfa.2022.130540" @default.
W4308561103 hasPublicationYear "2023" @default.
W4308561103 type Work @default.
W4308561103 citedByCount "11" @default.
W4308561103 countsByYear W43085611032023 @default.
W4308561103 crossrefType "journal-article" @default.
W4308561103 hasAuthorship W4308561103A5010252124 @default.
W4308561103 hasAuthorship W4308561103A5042791185 @default.
W4308561103 hasAuthorship W4308561103A5042852925 @default.
W4308561103 hasAuthorship W4308561103A5061776373 @default.
W4308561103 hasConcept C12143843 @default.
W4308561103 hasConcept C127413603 @default.