天然菊花素在酸-氯化物体系中对碳钢的吸附研究:理论与实验相结合的方法

W. Emori, P. Okonkwo, H. Louis, Ling Liu, E. Agwamba, T. Unimuke, P. Okafor, A. D. Atowon, A. Obike, Chunru Cheng
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引用次数: 1

摘要

由于大多数缓蚀剂的毒性、可生物降解性和成本,目前的研究重点是开发环境友好、可生物降解、廉价和高效的缓蚀剂。在此基础上,从毛白杨中分离出一种植物化合物金菊素,并对其在酸-氯混合体系中对碳钢的防腐性能进行了研究。这突出了本研究的主要目的。设计/方法/方法:采用柱层析法从毛白杨(Populus tomentosa)中分离得到杨素,并利用傅里叶变换红外光谱和核磁共振光谱对其进行了表征。基于理论(福井指数、凝聚密度泛函理论和分子动力学模拟)和实验(电化学、重量和表面形貌检查)对研究进行了概述。理论评价允许描述吸附特性,分子相互作用和取向的菊花素在铁底物。在Fe(110)上质子化的和中性的金菊花素的相互作用能分别为- 149.10 kcal/mol和- 143.28 kcal/mol。此外,实验研究表明,菊花素是一种有效的混合型钢铁缓蚀剂,其有效性取决于其周围温度和浓度。1 g/L的金菊素在298 K下作用24 h后的最佳抑菌率为78.7%,表明在相同条件下,作为纯化合物的金菊素的抑菌性能优于其他植物化合物和植物提取物。然而,在318 K下,48 h和72 h的抑制率分别下降到62.5%和51.8%。原创性/价值本研究的新颖性依赖于在腐蚀抑制研究中使用一种纯化合物,从而消除了植物提取物中多种植物化合物存在的未知影响,从而推进了生物基缓蚀剂的商业化。
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Adsorptive investigation of the anticorrosion properties of natural chrysin on carbon steel in acid–chloride system: combined theoretical and experimental approach
Purpose Owing to the toxicity, biodegradability, and cost of most corrosion inhibitors, research attention is now focused on the development of environmentally benign, biodegradable, cheap, and efficient options. In consideration of these facts, chrysin, a phytocompound of Populus tomentosa (Chinese white poplar) has been isolated and investigated for its anticorrosion abilities on carbon steel in a mixed acid and chloride system. This highlights the main purpose of the study. Design/methodology/approach Chrysin was isolated from Populus tomentosa using column chromatography and characterized using Fourier Transform Infrared Spectroscopy and Nuclear Magnetic Resonance Spectroscopy. The investigations are outlined based on theory (Fukui indices, condensed density functional theory and molecular dynamic simulation) and experiments (electrochemical, gravimetry and surface morphology examinations). Findings Theoretical evaluations permitted the description of the adsorption characteristics, and molecular interactions and orientations of chrysin on Fe substrate. The interaction energy for protonated and neutral chrysin on Fe (110) were −149.10 kcal/mol and −143.28 kcal/mol, respectively. Moreover, experimental investigations showed that chrysin is a potent mixed-type corrosion inhibitor for steel, whose effectiveness depends on its surrounding temperature and concentration. The optimum inhibition efficiency of 78.7% after 24 h for 1 g/L chrysin at 298 K indicates that the performance of chrysin, as a pure compound, compares favorably with other phytocompounds and plant extracts investigated under similar conditions. However, the inhibition efficiency decreased to 62.5% and 51.8% at 318 K after 48 h and 72 h, respectively. Originality/value The novelty of this study relies on the usage of a pure compound in corrosion suppression investigation, thus eliminating the unknown influences obtainable by the presence of multi-phytocompounds in plant extracts, thereby advancing the commercialization of bio-based corrosion inhibitors.
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