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Electrochemical Investigation for Cu2+ Oscillatory Phenomena at the Liquid/Liquid Interface with a Specific Adsorption of Ion Pair Model
Authors:Yijun Zhang  Caihong Bu  Yongcheng Wang  Zhihua Wang  Xiaoquan Lu  Xiuhui Liu
Affiliation:1. Key Laboratory of Bioelectrochemistry & Environmental Analysis of Gansu Province, College of Chemistry & Chemical Engineering, Northwest Normal University, Lanzhou, 730070, P.?R. China, Tel.: +86?0931?7975276;2. fax: +86?0931?7971323;3. Postal address: No. 967 Anning East Road, Lanzhou, Gansu, 730070, P.?R. China
Abstract:In this paper, a novel current oscillatory phenomenon for Cu2+ at the water/1,2‐dichloroethane interface is reported with cyclic voltammetry and potential‐step chronoamperometry. The small irregular current spikes were only observed near the site of the oxidation peak of CuCl2? and were mainly related to the Cu2+concentration in the aqueous phase. Our experimental results demonstrated that the current oscillation is caused by specific adsorption of ion pairs at the W/DCE interface between Cu2+ in the aqueous phase and TPB? in the organic phase. Therefore, a specific adsorption of ion pair model has been formulated for the current oscillation at the liquid/liquid interface. The DFT calculation method was used to explain the mechanism of ion pair formation. The calculation results suggested that the TPB?Cu2+TPB? ion pair has the lowest‐energy state, thus providing qualitative support for the ion pair model. A probable mechanism for the observed current oscillation was also discussed in this paper. At the same time, a spectrophotometric experiment was performed to evidence a strong attractive interaction between Cu2+ and TPB?.
Keywords:Current oscillation  Liquid/liquid interface  Ion pair  Specific adsorption  DFT  Cu2+
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