在有前一化学反应的模型电化学过程中,奈氏扩散层厚度对表面浓度的影响

O. I. Gichan
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摘要

在一个模型电化学过程中,在施加小振幅交流电的情况下,前一阶均相化学反应的电活性和电非电性物质的表面浓度受 Nernst 扩散层厚度的影响。研究考虑了附着在平面电极上的薄层中参与前一化学反应的物种扩散系数相等的情况。研究表明,在施加交流电的低频情况下,电活性和电不活泼物质的表面浓度会随着奈氏扩散层厚度的增加而增加。在高频率下,两种物质的表面浓度与该参数无关。不过,在一定频率范围内,物质的表面浓度会随着奈氏扩散层厚度的增加而降低。这个频率范围会受到 Nernst 扩散层厚度值、化学反应速率常数和物种扩散系数的影响。交变电流与在电流作用下发生变化的电活性和电阴性物质的表面浓度之间存在相移。它是奈氏扩散层厚度、振荡扩散层厚度和反应层厚度的函数。对于电活性物质,相位角只能取正值。在低频情况下,它趋向于 π/2,而在高频情况下,它减小到 π/4。在电活性物种的情况下,相角可以是正值、负值或等于零,这取决于 Nernst 扩散层厚度、化学反应速率常数和物种扩散系数的值。在低频时,它接近于 -π/2,而在高频时,它趋向于 π/4。这两个相位角既有最大值,也有最小值。它们的值与诺氏扩散层厚度、物种扩散系数和化学反应速率常数密切相关。
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Influence of the Nernst diffusion layer thickness on surface concentration in a model electrochemical process with a preceding chemical reaction
The influence of the Nernst diffusion layer thickness on the surface concentrations of electroactive and electroinactive species in a model electrochemical process with a preceding homogeneous first-order chemical reaction under application of a small amplitude alternating current has been investigated. A case of equal diffusion coefficients of species taking part in the preceding chemical reaction in a thin layer attached to a planar electrode is considered. It has been shown that, at low frequencies of an applied alternating current, the surface concentrations of electroactive and electroinactive species increase with increasing the Nernst diffusion layer thickness. At high frequencies, the surface concentrations of both species do not depend on this parameter. However, there is a range of frequencies where the surface concentrations of species can decrease with increasing the Nernst diffusion layer thickness. This range of frequencies can be influenced by a value of the Nernst diffusion layer thickness, the rate constants of chemical reaction, and the diffusion coefficient of species. There exists a phase shift between an alternating current and the surface concentrations of electroactive and electroinactive species that change under application of this current. It is a function of the Nernst diffusion layer thickness, the oscillation diffusion layer thickness, and the reaction layer thickness. In the case of electroactive species, the phase angle can take only a positive value. At low frequencies, it tends to π/2, whereas at high frequencies it decreases to π/4. For the case of electroinactive species, the phase angle can be positive, negative, and equal to zero depending on the value of the Nernst diffusion layer thickness, the rate constants of chemical reaction, and the diffusion coefficient of species. It approaches –π/2 at low frequencies, and at high frequencies it tends to π/4. The both phase angles can have the maxima and the minima. Their values are strongly dependent on the Nernst diffusion layer thickness, the diffusion coefficient of species, the rate constants of chemical reaction.
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