新型(E)- n ' -（2-羟基-5-硝基苄基）morpholine-4- carbothiohydraide螯合剂的Co2+和Ni2+配合物：合成、光谱、热及缓蚀研究

IF 3.7 2区化学 Q2 CHEMISTRY, APPLIED

Applied Organometallic Chemistry Pub Date : 2025-05-08 DOI:10.1002/aoc.70179

Amal A. Nassar

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引用次数: 0

摘要

在本研究中，制备了新的(E)- n ' -（2-羟基-5-硝基苄基）morpholin -4-碳硫腙（H2L）配体及其[Co(HL)2](1)和[Ni(HL)Cl]·1.5H2O(2)配合物，并使用分析和光谱工具进行了分析，如元素微量分析，电导率测量，1H-和13C-NMR， FT-IR, UV-vis， XRD， SEM，热重和差热重（TG-DTG）分析。傅里叶变换红外光谱（FT-IR）振动数据表明，在这两种配合物中，配体失去了它的酚质子，并作为一个单碱性的ONS三齿阴离子。紫外-可见测量和磁性数据表明，Co2+配合物(1)具有八面体几何形状，而Ni2+配合物(2)具有四面体形状。粉末XRD分析表明，该配体及其四配位Ni2+配合物(2)具有结晶性质，晶粒尺寸分别为96.68 nm和170.29 nm，而六配位Co2+配合物(1)为无定形。进一步介绍了有机配体及其金属螯合物的热裂解过程。采用Coats-Redfern和Horowitz-Metzger模型对两种配合物不同热解阶段的活化热力学参数进行了估计。此外，通过电化学（PDP和EIS）和理论（MC模拟和DFT）分析，研究了（H2L）配体及其钴和镍配合物在0.5 M H2SO4溶液中作为碳钢腐蚀抑制剂的效果。PDP分析表明，（H2L）配体及其Co2+和Ni2+配合物具有混合型抑制剂的功能。此外，EIS研究的结果证实了碳钢保护涂层的发展，从而提供了抗腐蚀的屏蔽。这两项研究的结论都证实了有机（H2L）及其Co2+和Ni2+配合物作为缓蚀剂的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Co2+ and Ni2+ Complexes of the New (E)-N′-(2-hydroxy-5-nitrobenzylidene) morpholine-4-carbothiohydrazide Chelating Agent: Synthesis, Spectral, Thermal, and Corrosion Inhibition Investigations

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Co2+ and Ni2+ Complexes of the New (E)-N′-(2-hydroxy-5-nitrobenzylidene) morpholine-4-carbothiohydrazide Chelating Agent: Synthesis, Spectral, Thermal, and Corrosion Inhibition Investigations

In the current study, the new (E)-N′-(2-hydroxy-5-nitrobenzylidene)morpholine-4-carbothiohydrazide (H₂L) ligand and its [Co(HL)₂] (1) and [Ni(HL)Cl]·1.5H₂O (2) complexes have been produced and analyzed using analytical and spectral tools as elemental microanalyses, conductivity measurements, ¹H- and ¹³C-NMR, FT-IR, UV–vis, XRD, SEM, and thermogravimetric and differential thermogravimetric (TG-DTG) analyses. The FT-IR vibrational data indicated that the ligand loses its phenolic proton and acts as a monobasic ONS tridentate anion in both of the complexes. UV–vis measurements, as well as magnetic data, proposed that the Co²⁺ complex (1) has octahedral geometry, whereas the Ni²⁺ complex (2) exists in a tetrahedral shape. Powder XRD patterns for the investigated compounds show that the ligand and its tetra-coordinated Ni²⁺ complex (2) have a crystalline nature with crystallite sizes of 96.68 and 170.29 nm, respectively, whereas, hexa-coordinated Co²⁺ complex (1) is amorphous. Furthermore, the thermal pyrolysis of the organic ligand and its metal chelates were presented. Also, the Coats–Redfern and Horowitz–Metzger models were employed to estimate the activation thermodynamic parameters for different pyrolytic stages of the two complexes. Furthermore, the efficacy of the (H₂L) ligand and its cobalt and nickel complexes as inhibitors of corrosion for carbon steel in 0.5 M H₂SO₄ solutions was examined through electrochemical (PDP and EIS) and theoretical (MC simulations and DFT) analyses. The information gathered from the PDP analysis demonstrated that the (H₂L) ligand and its Co²⁺ and Ni²⁺ complexes function as mixed-type inhibitors. Additionally, findings from EIS studies confirm the development of a protective coating over carbon steel, thereby offering a shield against corrosion. The conclusions of both studies corroborate the effectiveness of the organic (H₂L) and its Co²⁺ and Ni²⁺ complexes as corrosion inhibitors.

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来源期刊

Applied Organometallic Chemistry 化学-无机化学与核化学

CiteScore

7.80

自引率

10.30%

发文量

408

审稿时长

2.2 months

期刊介绍： All new compounds should be satisfactorily identified and proof of their structure given according to generally accepted standards. Structural reports, such as papers exclusively dealing with synthesis and characterization, analytical techniques, or X-ray diffraction studies of metal-organic or organometallic compounds will not be considered. The editors reserve the right to refuse without peer review any manuscript that does not comply with the aims and scope of the journal. Applied Organometallic Chemistry publishes Full Papers, Reviews, Mini Reviews and Communications of scientific research in all areas of organometallic and metal-organic chemistry involving main group metals, transition metals, lanthanides and actinides. All contributions should contain an explicit application of novel compounds, for instance in materials science, nano science, catalysis, chemical vapour deposition, metal-mediated organic synthesis, polymers, bio-organometallics, metallo-therapy, metallo-diagnostics and medicine. Reviews of books covering aspects of the fields of focus are also published.