A. Survila, S. Kanapeckaitė, L. Gudavičiūtė, O. Girčienė
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引用次数: 0
摘要
立陶宛维尔纽斯Saulïtekio大道3号物理科学与技术中心使用电化学阻抗谱研究了Cu(II)在含有甘氨酸(0.04或0.1M)作为络合剂的弱酸性(pH 4和5)溶液中还原的动力学。在pH 4和甘氨酸浓度cL=0.04M时观察到相当缓慢的平衡。随着pH或cL的增加,中间体Cu(I)的总浓度降低。同时,阻抗在所施加的整个频率范围内都会增加。使用具有两个并联子电路的等效电路来量化阻抗谱,每个并联子电路都包含串联的电荷转移电阻和Warburg阻抗。估算了两次连续单电子转移的交换电流密度。它们的平均值分别为~1μA cm–2和~0.1 mA cm–2。
Impedance of copper electrode in slightly acid Cu(II)-glycine solutions
Center for Physical Sciences and Technology, 3 Saulėtekio Avenue, 10257 Vilnius, Lithuania Electrochemical impedance spectroscopy was used to study the kinetics of reduction of Cu (II) in weakly acidic (pH 4 and 5) solutions of Cu (II) containing glycine (0.04 or 0.1 M) as a complexing agent. A rather slow equilibration was observed at pH 4 and glycine concentration cL = 0.04 M. With increasing pH or cL, the total concentration of intermediate Cu(I) decreases. At the same time, impedance increases over the entire range of frequencies applied. An equivalent circuit with two parallel sub-circuits, each containing the charge transfer resistance and Warburg impedance in series, was used to quantify the impedance spectra. The exchange current densities of two consecutive one-electron transfers were estimated. Their average values are ~1 μA cm–2 and ~0.1 mA cm–2.
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