Highly-effective/durable method of mild-steel corrosion mitigation in the chloride-based solution via fabrication of hybrid metal-organic film (MOF) generated between the active Trachyspermum Ammi bio-molecules-divalent zinc cations

Tehrani Mohammad Ebrahim Haji Naghi; Ramezanzadeh Mohammad; Ramezanzadeh Bahram

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Highly-effective/durable method of mild-steel corrosion mitigation in the chloride-based solution via fabrication of hybrid metal-organic film (MOF) generated between the active Trachyspermum Ammi bio-molecules-divalent zinc cations

机译：通过在活性曲囊蛋白AMMI生物分子 - 二价锌阳离子之间制备杂种金属 - 有机膜（MOF）的氯化物基溶液中的高效/耐用方法

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This study describes a novel bio-based inhibitor to effectively mitigate the mild-steel (MS) corrosion in the 3.5 wt % NaCl solution. For this purpose, the synergistic effect between the aqueous extract of Trachyspermum Ammi (T. A) seed and divalent zinc cations was thoroughly investigated. The GIXRD, UV?vis, FTIR, and Raman spectroscopy were employed to scrutinize the adsorption of the T.A-Zn2+ complexes on the metal surface. The EIS and potentiodynamic polarization studies also evidenced the outstanding corrosion protection effect of the formed protective layer. EIS results showed 94 % inhibition efficiency in the case of 700:300 ppm Zn:T.A sample.

机译：本研究描述了一种新的生物基抑制剂，以有效地减轻3.5wt％NaCl溶液中的温和钢（MS）腐蚀。为此目的，彻底研究了颅外蛋白酶AMMI（T.A）种子和二价锌阳离子的含水提取物之间的协同效应。 GixRD，UV？VI，FTIR和拉曼光谱法用于仔细筛选T.A-Zn2 +络合物对金属表面的吸附。 EIS和电位动力学偏振化研究还证明了所形成的保护层的突出腐蚀保护作用。 EIS结果显示出94％的抑制效率为700：300ppm Zn：T.A样品。

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来源
《Corrosion science》 |2021年第5期|109383.1-109383.13|共13页
作者
Tehrani Mohammad Ebrahim Haji Naghi; Ramezanzadeh Mohammad; Ramezanzadeh Bahram;
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Inst Color Sci & Technol Dept Surface Coatings & Corros POB 16765-654 Tehran Iran|Univ Tehran Coll Engn Sch Met & Mat Engn Tehran Iran;

Inst Color Sci & Technol Dept Surface Coatings & Corros POB 16765-654 Tehran Iran;

Inst Color Sci & Technol Dept Surface Coatings & Corros POB 16765-654 Tehran Iran;

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正文语种 eng
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关键词
Corrosion inhibitor; Synergistic inhibition; Bio-active molecules; Polarization; EIS; FT-IR; Raman;

机译：腐蚀抑制剂;协同抑制;生物活性分子;极化;EIS;FT-IR;拉曼;

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Highly-effective/durable method of mild-steel corrosion mitigation in the chloride-based solution via fabrication of hybrid metal-organic film (MOF) generated between the active Trachyspermum Ammi bio-molecules-divalent zinc cations

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