Comparison of inhibition performance of thiadiazole derivatives containing sulfhydryl groups: Experimental and theoretical calculations

Liang, Xuan; Gui, Yi‐Heng; Yue, Qing‐Xian; Ding, Rui; Liu, Jie; Yu, Hai‐Bin

doi:10.1002/kin.21652

Int J of Chemical Kinetics

2023

DOI: 10.1002/kin.21652

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Comparison of inhibition performance of thiadiazole derivatives containing sulfhydryl groups: Experimental and theoretical calculations

Xuan Liang,

Yi‐Heng Gui,

Qing‐Xian Yue

et al.

Abstract: Corrosion inhibitors could significantly reduce the corrosion effect of seawater on carbon steels, which were widely used in seawater cooling systems and seawater desalination systems. The corrosion inhibition properties of 1,3,4‐thiediazole (TD) and 2‐mercapto‐1,3,4‐thiadiazole (MTD) and their relationship with molecular structures were systematically studied by experimental and theoretical methods. TD and MTD were composite corrosion inhibitors with the higher proportion of cathodic corrosion inhibition, and… Show more

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2024

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Cited by 3 publications

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The synergistic anti‐corrosion performance and mechanism of meso‐tetra(4‐carboxyphenyl)porphine on steel bars in alkaline environments

Zhang,

Yue,

Ding

et al. 2024

Int J of Chemical Kinetics

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Corrosion protection of steel bars in alkaline concrete environments poses a common challenge in marine engineering. One approach to mitigate steel bar corrosion is the addition of corrosion inhibitors to the concrete. In alkaline environments, the passivation of rebars occurs through anodic passivation coupled with the cathodic oxygen reduction reaction (ORR). The catalysis of ORR can expedite anode passivation. To investigate the corrosion inhibition of steel bars in alkaline environments, meso‐tetra(4‐carboxyphenyl)porphine (TCPP), known for its ORR catalytic properties, is selected. TCPP forms adsorption films on the surface of steel bars, facilitating the formation of passivation films. TCPP primarily adsorbs onto active sites on the surface of the passivation film, where lattice iron ions have leached. The adsorbed TCPP accelerates the formation of the passivation film through ORR catalysis, inhibiting the development of passivation film defects and enhancing the integrity and protection of the passivation film. The most significant effect is observed when the concentration of TCPP is 0.5 mmol/L. The physical adsorption of TCPP is primarily determined by the negative charge centers, namely the carboxyl group O and the pyrrole N. However, due to steric hindrance caused by the unrestricted rotation of the carboxyl benzene, the pyrrole N does not play a dominant role in chemical adsorption. Instead, the active site for chemical adsorption is the carboxyl group O. The adsorption process significantly reduces the diffusion coefficient of TCPP molecules, providing a robust and stable adsorption binding. Phthalocyanine molecules without carboxyl benzene groups adopt a planar structure, allowing them to form stable adsorption configurations on the iron surface through flat adsorption. This observation provides guidance for the design of novel metal phthalocyanine molecules. Specifically, the development of metal phthalocyanine molecules with modifying groups that are coplanar with the phthalocyanine ring and possess restricted rotation can achieve flat adsorption, improve coverage rate, and enhance adsorption configuration stability.

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The synergistic anti‐corrosion performance and mechanism of meso‐tetra(4‐carboxyphenyl)porphine on steel bars in alkaline environments

Zhang,

Yue,

Ding

et al. 2024

Int J of Chemical Kinetics

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The Performance of Amino‐ and Hydroxy‐Substituted Benzothiazoles in Inhibiting the Corrosion of Carbon Steel in HCl and the Molecular‐Level Mechanisms

Zhang,

Liang,

Ding

et al. 2024

ChemistrySelect

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In the pickling process and acidizing program for oil wells, the acidic corrosion of metals is a problem that needs to be addressed. Various acid corrosion inhibitors have been studied and used to mitigate the acidic corrosion of carbon steel. In this paper, the corrosion inhibition of 2‐aminobenzothiazole (2 N‐BT), 2‐amino‐4‐hydroxybenzothiazole (2 N4O‐BT), and 2‐amino‐6‐hydroxybenzothiazole (2 N6O‐BT) on carbon steel in 0.5 mol/L HCl was investigated using electrochemical and quantum chemical methods. All three molecules exhibited corrosion inhibition effects. Compared to 2 N‐BT, 2 N4O‐BT and 2 N6O‐BT showed less sensitivity to the environmental conditions and the surface state of the metal. Among them, 0.0010 mol/L 2 N6O‐BT demonstrated the highest and most persistent corrosion inhibition, exhibiting a mixed inhibition mechanism with cathodic inhibition dominance. The adsorption of 2 N6O‐BT on the carbon steel surface was found to be non‐uniform, preferentially adsorbing at certain active sites on the surface, following Freundlich‐Langmuir thermodynamic characteristics. It showed initial strongly adsorbed points and weakly adsorbed regions. With continued adsorption of 2 N6O‐BT, the differences between strongly adsorbed points and weakly adsorbed regions decreased. The introduction of hydroxyl groups, especially in 2 N6O‐BT, extended the negative potential region and enhanced the coordination activity of the molecule, generating the orbital distribution that was advantageous to flat adsorption and the formation of feedback bonds. This provided a molecular structural basis for the excellent corrosion inhibition properties of 2 N6O‐BT.

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Study on the corrosion inhibition thermal/kinetic characteristics and quantum chemical mechanism of rhodamine acylhydrazone

Ji,

Lv,

Ding

et al. 2024

Corrosion Engineering, Science and Technology: The Internationa

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The adsorption of organic corrosion inhibitor molecules on metal surfaces is similar to the complexation with metal ions. Rhodamine B acylhydrazone (RBA) with high complexation and selectivity for iron ion was used for fluorescence detection of steel corrosion. This paper confirmed that the strong coordination of RBA endowed it with excellent corrosion inhibition performance with the inhibition efficiency of over 99% and excellent durability. The increase in coverage and the positive shift in potential exhibited mutually reinforcing dynamic characteristics, which determined excellent corrosion inhibition. The corrosion inhibition of RBA on carbon steel was achieved through a combination of physical adsorption and chemical adsorption and the adsorption thermodynamics conformed to Langmuir adsorption. The active site was carbonyl O. RBA and further optimised rhodamine derivatives in molecular structure would become potential molecules for achieving a combination of corrosion detection and corrosion inhibition functions. In addition, the quantitative structure-activity equation constructed through composite quantum chemical parameters was in great agreement with the experimental results of corrosion inhibition efficiency.

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Comparison of inhibition performance of thiadiazole derivatives containing sulfhydryl groups: Experimental and theoretical calculations

Cited by 3 publications

References 46 publications

The synergistic anti‐corrosion performance and mechanism of meso‐tetra(4‐carboxyphenyl)porphine on steel bars in alkaline environments

The synergistic anti‐corrosion performance and mechanism of meso‐tetra(4‐carboxyphenyl)porphine on steel bars in alkaline environments

The Performance of Amino‐ and Hydroxy‐Substituted Benzothiazoles in Inhibiting the Corrosion of Carbon Steel in HCl and the Molecular‐Level Mechanisms

Study on the corrosion inhibition thermal/kinetic characteristics and quantum chemical mechanism of rhodamine acylhydrazone

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