Thiol–ene Click Chemistry Synthesis of L‑Cysteine-Grafted Graphene Oxide As a New Corrosion Inhibitor for Q235 Steel in Acidic Environment

l-cysteine, as an eco-friendly and nontoxic corrosion inhibitor, was directly covalently linked to the carbon/carbon double bonds of the GO flakes by a thiol–ene click reaction to avoid decreasing the number of hydrophilic oxygen-containing polar functionalities. The corrosion inhibition performance...

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Veröffentlicht in:	Langmuir 2024-06, Vol.40 (24), p.12526-12538
Hauptverfasser:	Chu, Qingkai, Yang, Haobing, Liu, Zhixiong, Li, Xiaofan, Niu, Guoyan, Zhang, Jin, Zhang, Xianhui, Li, Yong, Ye, Yuwei
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Sprache:	eng
Schlagworte:	adsorption carbon chemical bonding corrosion cysteine electrochemistry electrostatic interactions graphene oxide hydrochloric acid hydrophilicity sorption isotherms steel
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container_title	Langmuir
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creator	Chu, Qingkai Yang, Haobing Liu, Zhixiong Li, Xiaofan Niu, Guoyan Zhang, Jin Zhang, Xianhui Li, Yong Ye, Yuwei
description	l-cysteine, as an eco-friendly and nontoxic corrosion inhibitor, was directly covalently linked to the carbon/carbon double bonds of the GO flakes by a thiol–ene click reaction to avoid decreasing the number of hydrophilic oxygen-containing polar functionalities. The corrosion inhibition performances of Cys-GO toward Q235 steel (QS) in diluted hydrochloric acid were studied by electrochemical methods. The corrosion was a charge transfer-controlled process, and Cys-GO manifested as a mixed-type corrosion inhibitor. The corrosion inhibition efficiency (η) for QS showed a first-increase-and-then-decrease trend with increasing Cys-GO concentrations. The optimum concentration of Cys-GO was 15 mg L–1, and the according η value was up to 90%. The Cys-GO adsorbed on the QS surface to form a protective barrier was responsible for the efficient corrosion inhibition. Langmuir adsorption isotherm model was fitted well with the experiment data, indicating a monolayer adsorption. Furthermore, the coordinate covalent bonds, π-back-donation effect, and electrostatic attraction were responsible for the Cys-GO adsorption on the QS surface.
doi_str_mv	10.1021/acs.langmuir.4c00932
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The corrosion inhibition performances of Cys-GO toward Q235 steel (QS) in diluted hydrochloric acid were studied by electrochemical methods. The corrosion was a charge transfer-controlled process, and Cys-GO manifested as a mixed-type corrosion inhibitor. The corrosion inhibition efficiency (η) for QS showed a first-increase-and-then-decrease trend with increasing Cys-GO concentrations. The optimum concentration of Cys-GO was 15 mg L–1, and the according η value was up to 90%. The Cys-GO adsorbed on the QS surface to form a protective barrier was responsible for the efficient corrosion inhibition. Langmuir adsorption isotherm model was fitted well with the experiment data, indicating a monolayer adsorption. 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subjects	adsorption carbon chemical bonding corrosion cysteine electrochemistry electrostatic interactions graphene oxide hydrochloric acid hydrophilicity sorption isotherms steel
title	Thiol–ene Click Chemistry Synthesis of L‑Cysteine-Grafted Graphene Oxide As a New Corrosion Inhibitor for Q235 Steel in Acidic Environment
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