Chemical Combination of 4-(4-Hydroxybut-2-ynyl) Pyridine and 3-Methylbenzenamine to Construct an Effective Inhibitor: Theoretical and Practical Investigation

International journal of nanotechnology and nanomedicine Pub Date : 2018-09-28 DOI:10.33140/ijnn.03.02.2

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Abstract

A new inhibitor, N-m-benzylamine-4-(4-hydroxybut-2-ynyl) pyridinium bromide (designated as BAP) was designed and synthesized. Quantum chemical calculation and molecular dynamics (MD) simulations manifested that BAP, a compound by covalent combination of 4-(4-hydroxybut-2-ynyl) pyridine (HYP) and 3-methyl benzenamine (MBA), functioned better than did the two moieties (HYP and MBA) for X70 steel corrosion inhibition. The corrosion inhibition investigation revealed that the experiment outcome was in good consistency with the theoretical calculation. The inhibition efficiency of BAP was 95.72% for X70 steel in 5 M HCl at 90 0C. BAP adsorbed on X70 steel surface, obeyed Langmuir isotherm, retarded both the metal dissolution and the hydrogen evolution, and enhanced greatly the acid corrosion resistance of X70 steel. Comparative test demonstrated that the inhibition efficiency of BAP was about 10 times of that for MAB and 8 times of that for HYP albeit the concentration of BAP was tenth of that of HYP and MBA. The experimental investigation backs up the theoretical calculation and manifests intramolecular synergism of the structure moieties being beneficial to design of high effective inhibitors.

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4-(4-羟基丁-2-炔基)吡啶与3-甲基苯胺化学组合构建有效抑制剂的理论与实践研究

设计合成了一种新型抑制剂n -间苄基-4-(4-羟基丁-2-炔基)溴化吡啶(简称BAP)。量子化学计算和分子动力学(MD)模拟表明，4-(4-羟基丁-2-炔基)吡啶(HYP)和3-甲基苯胺(MBA)的复合共价组合BAP对X70钢的缓蚀作用优于HYP和MBA两个部分。缓蚀试验结果与理论计算结果吻合较好。BAP对X70钢的缓蚀率为95.72%，缓蚀温度为90℃。BAP吸附在X70钢表面，服从Langmuir等温线，既延缓金属溶解，又延缓析氢，大大提高了X70钢的耐酸性。对比实验表明，尽管BAP的浓度是HYP和MBA的十分之一，但其对MAB的抑制效率约为MAB的10倍，对HYP的抑制效率约为HYP的8倍。实验研究支持了理论计算，并表明分子内结构段的协同作用有利于设计高效抑制剂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of nanotechnology and nanomedicine

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