光谱学与光谱分析 |
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Chemical Characteristics of Nickel(Ⅱ) 2,3-Dimercaptosuccinate Complexes Modified on Gold Electrodes |
LIU Wen-han, YUAN Rong-hui, TENG Yuan-jie |
State Key Laboratory Breeding Base of Green Chemistry-Synthesis Technology,College of Chemical Engineering,Zhejiang University of Technology,Hangzhou 310014,China |
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Abstract 2,3-Dimercaptosuccinic acid (DMSA) and its complex Nickel(Ⅱ) 2,3-Dimercaptosuccinate (DMSA-Ni(Ⅱ)) were assembled on the electrochemically activated Au electrode and the modified films were investigated by ex-situ SERS, SEM and electro-reduction. The coordination ratio (1∶2) and stability constant (4.716×107) of DMSA and Nickel(Ⅱ) were firstly confirmed by UV. Then, the SERS spectra showed that DMSA was absorbed on the surface of activated Au and the coordinate bond of DMSA-Ni(Ⅱ) was existed as S—Ni—O. Meanwhile, two reduction peaks of DMSA-Ni(Ⅱ) on Au electrode were presented at negative potential. The first peak (from positive to negative values) was related to the RS—Au group which was produced by the mutual absorption of DMSA and Au. The second reduction peak was related to Nickel(Ⅱ). Finally, it was further confirmed by calculating the surface coverage and comparison of molecular area. And it was found that the molecular arrangement of DMSA-Ni(Ⅱ) on Au electrode generated as monolayer which was dispersed or connected partly instead of concentrated or overlapped.
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Received: 2013-11-14
Accepted: 2014-02-19
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Corresponding Authors:
LIU Wen-han
E-mail: liuwh@zjut.edu.cn
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[1] Jiang H, Zhao T, Li C Z, et al. Journal of Materials Chemistry, 2011, 21(11): 3818. [2] Bian C L, Zeng Q X, Xiong H Y, et al. Bioelectrochemistry, 2010, 79: 1. [3] Chi W S, Han J W, Yang S, et al. Chemical Communications, 2012, 48(76): 9501. [4] LIU Wen-han, YUAN Rong-hui, TENG Yuan-jie, et al(刘文涵, 袁荣辉, 滕渊洁, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2013, 33(9): 2433. [5] KE Yi-kan, DONG Hui-ru(柯以侃, 董慧茹). Handbook of Analytical chemistry: Spectral Analysis(分析化学手册: 光谱分析). Beijing: Chemical Industry Press(北京: 化学工业出版社), 1998. 1155. [6] Kolega R R, Schlenoff J B. Langmuir, 1998, 14(19): 5469. [7] LIU Wen-han, YUAN Rong-hui, TENG Yuan-jie, et al(刘文涵, 袁荣辉, 滕渊洁, 等). Acta Physico-Chimica Sinica(物理化学学报), 2013, 29(12): 2599. [8] Widrig C A, Chung C, Porter M D. Journal of Electroanalytical Chemistry, 1991, 310(1-2): 335. [9] Trasatti S, Petrii O A. Pure and Applied Chemistry, 1991, 63(5): 711. [10] Schalnat M C, Pemberton J E. Langmuir, 2010, 26(14): 11862. [11] Ishikawa S, Hada S, Funasaki N. Journal of Physical Chemistry, 1995, 99(29): 11508. |
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