Electrochemical behavior of Cu~(2+)-histidine complexes on a glassy carbon electrode

Weng Y.-C.; Cheng T.-H.

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Electrochemical behavior of Cu~(2+)-histidine complexes on a glassy carbon electrode

机译：Cu〜（2 +）-组氨酸配合物在玻璃碳电极上的电化学行为

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The electrochemical behavior of Cu~(2+)-L-histidine complexes on a glassy carbon electrode with various coordination environments in aqueous solution has been investigated. The Cu~(2+)-histidine complexes are more easily reduced and oxidized at low pH (pH = 3 ? 4) than at high pH (pH = 8 ? 10). Both reduction and oxidation reactions of the Cu ~(2+)-histidine complexes are controlled by mass transfer at medium (pH = 5 ? 7) and high pH (pH = 8 ~10) solutions. Even if the molar ratio of histidine to Cu~(2+) ions is as high as 100: 1 at low pH of 4, the complexes are easily reduced to form Cu metal directly on the electrode surface. Glassy carbon rotating disk electrode experiments have shown that the electron transfer of the reduction reaction of the Cu~(2+)-histidine complexes is close to 2.

机译：研究了Cu〜（2 +）-L-组氨酸配合物在玻璃碳电极上在多种配位环境下的电化学行为。与高pH（pH = 8〜10）相比，低pH（pH = 3〜4）时，Cu〜（2 +）-组氨酸配合物更容易还原和氧化。 Cu〜（2 +）-组氨酸配合物的还原反应和氧化反应都受中等（pH = 5〜7）和高pH（pH = 8〜10）溶液的传质控制。即使在4的低pH下组氨酸与Cu〜（2+）离子的摩尔比高达100：1，络合物也很容易还原，直接在电极表面形成Cu金属。玻碳转盘电极实验表明，Cu〜（2 +）-组氨酸配合物的还原反应的电子转移接近2。

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《Zeitschrift fur Naturforschung, B. A Journal of Chemical Sciences》 |2011年第3期|共10页
作者
Weng Y.-C.; Cheng T.-H.;
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原文格式 PDF
正文语种 eng
中图分类化学;
关键词
Copper complexes; Cu2+-L-histidine; Electrochemistry; Glassy carbon electrode; Histidine complexes;

机译：铜配合物;Cu2 + -L-组氨酸;电化学;玻璃状碳电极;组氨酸配合物;
入库时间 2022-08-18 21:44:08

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Electrochemical behavior of Cu~(2+)-histidine complexes on a glassy carbon electrode

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