Theoritical Studies of Corossion Inhibition of Coumarin and Coumarin Derivative on Iron by Density Functional Theory Approaches

M. Ariefin, M. H. Pasaribu
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引用次数: 0

Abstract

Corrosion of iron is a persistent problem that affects its structural integrity and durability in various industrial applications. The design of effective corrosion inhibitors is crucial for mitigating aluminum corrosion. In recent years, coumarin derivatives have shown promising potential as corrosion inhibitors for iron due to their unique chemical properties. In this research, we employ density functional theory (DFT) calculations to investigate electrochemical parameters of coumarin derivatives on iron corrosion. Coumarin (a) and its derivative: hymechromone (b), esculetin (c), and scopoletin (d) are analyzed using DFT calculation. Some descriptor is used to identify such as ionisation energy (I), electron affinity (A), EHOMO, ELUMO, Egap, electronegativity ( ), hardness ( ), number of fraction electron transferred ( N). Based on the EHOMO, ELUMO, Egap, electronegativity ( ), hardness ( ), the order of inhibitor potential of coumarin and it derivative is c > d > b > a. However, based on the number of fractional electrons transferred ( N), the potential inhibitor of coumarin and it derivative are c > b > d > a.
用密度泛函理论方法研究香豆素及其衍生物对铁的协同抑制作用
铁的腐蚀是一个持续存在的问题,在各种工业应用中影响其结构完整性和耐久性。有效缓蚀剂的设计对于减轻铝腐蚀至关重要。近年来,香豆素衍生物因其独特的化学性质而显示出作为铁缓蚀剂的潜力。在本研究中,我们采用密度泛函理论(DFT)计算来研究香豆素衍生物对铁腐蚀的电化学参数。利用DFT计算分析了香豆素(a)及其衍生物:海梅溴酮(b)、esculetin(c)和东莨菪内酯(d)。一些描述符用于识别,如电离能(I)、电子亲和力(A)、EHOMO、ELUMO、Egap、电负性()、硬度()、电子转移分数(N)。根据EHOMO、ELUMO、Egap、电负性()、硬度(),香豆素及其衍生物的缓蚀剂电势的顺序为c>d>b>a。然而,根据转移的分数电子数(N),香豆素及衍生物的潜在缓蚀剂为c>b>d>a。
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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24 weeks
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