Deciphering properties of Dryopteris marginalis as green corrosion inhibitor for mild steel in HCl: Electrochemical, gas chromatography and DFT studies

Sustainable Chemistry One World Pub Date : 2025-08-18 DOI:10.1016/j.scowo.2025.100103

Msenhemba Moses Mchihi , Nnenna Winifred Odozi , Akachi Blessing Odimuko

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Abstract

This paper discusses the inhibitory influence of Dryopteris marginalis (DM) leaf extract on the deterioration of mild steel (M.S) in hydrochloric acid using electrochemical methods and computational studies. Analysis through Gas Chromatography Mass Spectrometry identified various compounds in DM. The corrosion current density significantly decreased from 1241 μAcm⁻² without DM to 474 μAcm⁻² upon the addition of 1000 ppm of DM. The change in corrosion potential following the introduction of DM was < 85 mV, signifying that DM demonstrates mixed-type inhibition characteristics. Furthermore, the presence of DM markedly enhanced the resistance to charge transfer, increasing from 3623 Ω cm² without DM to 8752 Ω cm² with the incorporation of 1000 ppm of DM. The extent of resistance to charge transfer was influenced by the dosage of DM. As the dose of DM improved, the efficiency of inhibition correspondingly enhanced. Results from DFT calculations indicated that the molecules present in the extract exhibit favorable electronic and adsorption characteristics typical of effective corrosion inhibitors, which aligns with findings from electrochemical investigations.

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毛毛蕨在盐酸中作为绿色缓蚀剂对低碳钢的解译性能：电化学、气相色谱和DFT研究

本文采用电化学方法和计算研究方法，探讨了毛蕨叶提取物对低碳钢（ms）在盐酸中变质的抑制作用。通过气相色谱-质谱分析，发现DM中含有多种化合物，加入1000 ppm DM后，腐蚀电流密度从未加入DM时的1241 μAcm−2显著降低到474 μAcm−2，加入DM后腐蚀电位变化为 85 mV，表明DM具有混合型缓蚀特性。此外，DM的存在显著增强了其对电荷转移的抗性，当加入1000 ppm DM时，其对电荷转移的抗性从未添加DM时的3623 Ω cm2增加到8752 Ω cm2。DM对电荷转移的抗性程度受DM剂量的影响，随着DM剂量的增加，抑制效率也相应提高。DFT计算结果表明，萃取物中的分子表现出良好的电子和吸附特性，这是有效缓蚀剂的典型特征，这与电化学研究结果一致。

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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Sustainable Chemistry One World

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