Corrosion Inhibition of Copper by Thioureas and N, O, S-Ligating Ring Compounds

IF 1.1 Q4 ELECTROCHEMISTRY

Portugaliae Electrochimica Acta Pub Date : 2020-01-01 DOI:10.4152/pea.202005343

P. Chooto, W. A. Tappachai, S. Duangthong, S. Manaboot

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引用次数: 2

Abstract

Certain N, O, S-ligating ring compounds and thioureas were investigated to understand their role of copper corrosion inhibition in acetonitrile. For 5 quinones under study, including xanthone, xanthene, thioxanthone, acridone and 1,4-naphthoquinone, acridone was the best inhibitor, with Cu corrosion rate of 4.495 × 10 mm/year, whereas 1,4naphthoquinone exhibited the lowest inhibition, due to a lower number of nitrogen groups. With the presence of sulphur, to form a stronger bond with Cu, thioureas had better inhibiting behavior than quinones. Of 4 thioureas, namely thiourea (tu), diphenylthiourea (dptu), phenylthiourea (ptu), and ethylenethiourea (etu), the fourth shows the highest inhibition – with Cu corrosion rate of 2.27 × 10 mm/year – and the third shows the lowest one, due to the steric effect from the phenyl group. When halide ions are present, the inhibition efficiency of thioureas decreases, due to more preferable Cu complexation to halides; the strongest copper-halide bond formation occurred by the freest iodide ion, which is consistent with the results from X-ray crystallography and electrochemistry.

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硫脲和N, O, s连接环化合物对铜的缓蚀作用

研究了N、O、s连接环化合物和硫脲在乙腈中对铜的缓蚀作用。在所研究的5种醌类中，杂蒽酮、杂蒽、硫杂蒽酮、吖啶酮和1,4-萘醌的缓蚀剂中，吖啶酮的缓蚀剂效果最好，其Cu腐蚀速率为4.495 × 10 mm/年，而1,4萘醌由于氮基数量较少，缓蚀效果最差。在有硫存在的情况下，硫脲比醌类具有更好的抑制作用，与Cu形成更强的键。在4种硫脲中，即硫脲(tu)、二苯基硫脲(dptu)、苯基硫脲(ptu)和乙烯硫脲(etu)，第4种硫脲的缓蚀作用最强，铜腐蚀速率为2.27 × 10 mm/年，而第3种硫脲的缓蚀作用最低，这是由于苯基的位阻作用。当卤化物离子存在时，硫脲的缓蚀效率降低，因为铜的络合作用优于卤化物;最游离的碘离子形成最强的铜-卤化键，这与x射线晶体学和电化学结果一致。

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来源期刊

Portugaliae Electrochimica Acta ELECTROCHEMISTRY-

CiteScore

2.30

自引率

16.70%

发文量

期刊介绍： Portugaliae Electrochimica Acta is a bi-monthly Journal published by the Portuguese Electrochemical Society since 1983. Portugaliae Electrochimica Acta publishes original papers, brief communications, reviews and letters concerned with every aspect of theory and practice of electrochemistry, as well as articles in which topics on history, science policy, education, etc. in the electrochemical field (teaching or research) may be discussed.