Synthesis, Corrosion Inhibition Efficiency in Acidic Media, and Quantum Chemical Studies of Some Hydrazine Derivatives

Q2 Pharmacology, Toxicology and Pharmaceutics

Science and Technology Indonesia Pub Date : 2024-01-22 DOI:10.26554/sti.2024.9.1.137-147

Huda Saleh Abood, E. Q. Jasim, M. A. Muhammad-Ali

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Abstract

In this work, four hydrazone Schiff base derivatives N-(2,4-Dinitro-phenyl)-N’-(1H-pyrrol-2-ylmethylene)-hydrazine (1a), N-Benzo [1,3] dioxol-5-ylmethylene-N’-(2,4-dinitro-phenyl)-hydrazine (1b), (E)-5-((2-(2,4-dinitrophenyl)hydrazono)methyl)-2-hydroxybenzoic acid (1c) and (E)-1-(2,4-dinitrophenyl)-2-(2-methoxybenzylidene)hydrazine (1d) were synthesized by reaction of four aldehydes namely pyrrole-2-carboxaldehyde, piperonal, 5-formylsalicylic acid, and o-vanillin with 2,4-dinitrophenyl hydrazine to produce the final compounds 1a, 1b, 1c, and 1d, respectively. These four compounds were investigated as corrosion inhibitors in aqueous mild acidic static solution. FTIR, HNMR, and elemental analysis were used to elucidate the chemical structure of the synthesized inhibitors. Using potential dynamic polarization measurements, these inhibitors’ efficiency in preventing C-steel corrosion in 1.00 M HCl was studied. The results of the experiments revealed that 1×10−3 M is the ideal concentration for 1a, 1b, 1c, and 1d, and that the corresponding inhibition efficiencies for these subunits were 80.70%, 91.30%, 91.34, and 88.80%, respectively. The best corrosion inhibitors were compounds 1b and 1c. Furthermore, studies suggested that these substances are mixed-type inhibitors and that the efficiency of the inhibition is strongly correlated with their quantity. Quantum paraments included Dipole moment, energy band gap (ΔE), value of energy of lowermost unoccupied molecular orbital (ELUMO), and energy of high most occupied molecular orbital (EHOMO) using Molecular Operating Environment MOE, Gaussian, and HyperChem software packages were determined which demonstrated strong agreement between algorithmic and practical findings.

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某些肼衍生物的合成、在酸性介质中的缓蚀效率以及量子化学研究

在这项工作中，四种腙席夫碱衍生物 N-(2,4-二硝基苯基)-N'-(1H-吡咯-2-亚甲基)-肼 (1a)、N-苯并 [1、3]二恶茂-5-基亚甲基-N'-(2,4-二硝基苯基)-肼(1b)、(E)-5-((2-(2,4-二硝基苯基)偶氮肼)甲基)-2-羟基苯甲酸(1c)和(E)-1-(2、(1c)和(E)-1-(2,4-二硝基苯基)-2-(2-甲氧基亚苄基)肼(1d)是由四种醛（即吡咯-2-甲醛、胡椒醛、5-甲酰基水杨酸和邻香兰素）与 2,4-二硝基苯基肼反应合成的，最终分别生成化合物 1a、1b、1c 和 1d。这四种化合物作为缓蚀剂在弱酸性静态水溶液中进行了研究。傅立叶变换红外光谱、氢核磁共振和元素分析被用来阐明合成抑制剂的化学结构。通过电位动态极化测量，研究了这些抑制剂在 1.00 M HCl 中防止 C 钢腐蚀的效率。实验结果表明，1a、1b、1c 和 1d 的理想浓度为 1×10-3M，这些亚基的相应抑制效率分别为 80.70%、91.30%、91.34 和 88.80%。最佳缓蚀剂是化合物 1b 和 1c。此外，研究表明这些物质是混合型抑制剂，抑制效率与它们的数量密切相关。使用分子操作环境 MOE、高斯和 HyperChem 软件包测定了包括偶极矩、能带隙 (ΔE)、最低级未占用分子轨道能量 (ELUMO) 值和最高级占用分子轨道能量 (EHOMO) 在内的量子参数，结果表明算法与实际结果非常一致。

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