张小军等：锌电积过程中锰元素对铝阴极的电化学行为影响 ·807· [14]LiT,Huang H,Guo Z C.Electrochemical behavior of the super hydrogen evolution overpotential on rechargeable alkaline iron high strength aluminum alloy as a cathode in zinc electrodeposi- electrodes.J Electrochem Soc,2017,164(6):A1251 tion.Chin J Eng,2016,38(6):767 [18]Calle-Vallejo F,Koper M T M,Bandarenka A S.Tailoring the (栗韬，黄惠，郭忠诚.超硬铝合金作为阴极在锌电积过程 catalytic activity of electrodes with monolayer amounts of foreign 中的电化学行为.工程科学学报，2016,38(6)：767) metals.Chem Soc Rev,2013,42(12)5210 [15]Cai Y X,Liu K G,Guo X F.Corrosion Resistance of Common [19]Chen X J,Jiang L X,Peng B,et al.Electrochemical behavior of Metal Materials.Beijing:Metallurgical Industry Press,2012 ultrabattery negative electrode material.J Cent South Unie Sci (蔡元兴，刘科高，郭晓斐。常用金属材料的耐腐蚀性能.北 Technol,2012,43(6):2023 京：冶金工业出版社，2012) (陈绪杰，蒋良兴，彭彬，等.超级电池负极材料的电化学行 [16]Guo P.The relationship between hydrogen evolution reaction and 为.中南大学学报（自然科学版），2012,43(6)：2023) over potential and the application of hydrogen over potential.He- [20]Xu SQ,Liu C X,Shen Q F,et al.Electrodeposition mechanism bei Chem Eng Ind,2009,32(7):12 of Zn(I on zine electrode.Chin J Inorg Chem,2016,32 (郭平.析氢反应与过电位的关系以及氢过电位的应用.河 (3):386 北化工，2009,32(7)：12) (徐双全，刘春侠，沈庆峰，等.Z(Ⅱ)在锌电极上的电沉 [17]Chamoun M,Skarman B,Vidarsson H,et al.Stannate increases 积机理.无机化学学报，2016,32(3)：386)张小军等: 锌电积过程中锰元素对铝阴极的电化学行为影响 [14] Li T, Huang H, Guo Z C. Electrochemical behavior of the super high strength aluminum alloy as a cathode in zinc electrodeposi鄄 tion. Chin J Eng, 2016, 38(6): 767 (栗韬, 黄惠, 郭忠诚. 超硬铝合金作为阴极在锌电积过程 中的电化学行为. 工程科学学报, 2016, 38(6): 767) [15] Cai Y X, Liu K G, Guo X F. Corrosion Resistance of Common Metal Materials. Beijing: Metallurgical Industry Press, 2012 (蔡元兴, 刘科高, 郭晓斐. 常用金属材料的耐腐蚀性能. 北 京: 冶金工业出版社, 2012) [16] Guo P. The relationship between hydrogen evolution reaction and over potential and the application of hydrogen over potential. He鄄 bei Chem Eng Ind, 2009, 32(7): 12 (郭平. 析氢反应与过电位的关系以及氢过电位的应用. 河 北化工, 2009, 32(7): 12) [17] Chamoun M, Skarman B, Vidarsson H, et al. Stannate increases hydrogen evolution overpotential on rechargeable alkaline iron electrodes. J Electrochem Soc, 2017, 164(6): A1251 [18] Calle鄄Vallejo F, Koper M T M, Bandarenka A S. Tailoring the catalytic activity of electrodes with monolayer amounts of foreign metals. Chem Soc Rev, 2013, 42(12): 5210 [19] Chen X J, Jiang L X, Peng B, et al. Electrochemical behavior of ultrabattery negative electrode material. J Cent South Univ Sci Technol, 2012, 43(6): 2023 (陈绪杰, 蒋良兴, 彭彬, 等. 超级电池负极材料的电化学行 为. 中南大学学报(自然科学版), 2012, 43(6): 2023) [20] Xu S Q, Liu C X, Shen Q F, et al. Electrodeposition mechanism of Zn( 域) on zinc electrode. Chin J Inorg Chem, 2016, 32 (3): 386 (徐双全, 刘春侠, 沈庆峰, 等. Zn(域)在锌电极上的电沉 积机理. 无机化学学报, 2016, 32(3): 386) ·807·