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氨基磺酸体系Co-Ni合金电化学共沉积行为及动力学机理 被引量:11

Electrochemical Anomalous Codeposition of Co-Ni Alloys from Sulfamate Electrolytes and its Mechanism
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摘要 通过稳态阴极极化和电化学交流阻抗(EIS)等方法,研究了在不同钴镍金属离子比例的氨基磺酸电解液中,Co-Ni合金的电化学共沉积行为。结果表明在氨基磺酸体系中,导致Co-Ni合金异常共沉积行为的原因和在硫酸盐,或氯化物体系中的不同。不是由于 Co^(2+)抑制了Ni的沉积,而是由于NH_2SO_3^-作为双齿配体形成的异核络合物在电极表面吸附,阻滞了镍离子的还原过程。并且以晶体场理论为基础解释了Co^(2+)和NH_2SO_3^-形成的高自旋络合物,比Ni^(2+)所形成的络合物具有较高的晶体场稳定化能(CFSE),容易分解。因此吸附在电极表面的氨基磺酸根离子对Co^(2+)沉积的阻滞作用小于对Ni^(2+)的。这样就导致了在氨基磺酸电解液体系中Co^(2+)的优先沉积。阳极线性扫描曲线表明, 钴镍合金中镍含量越高,沉积层在热力学上越稳定,耐蚀性也越好。同时通过EIS的测试,利用等效电路的分析方法和交流阻抗谱解析理论,提出了氨基磺酸电解液中Co-Ni合金共沉积的动力学机理,较好地解释了实验结果。 The anomalous codeposition behavior of Co-Ni alloys from sulfamate electrolytes containing various Co2+/Ni2+ ratios was investigated by steady polarization curves and electrochemistry impedance spectroscopy (EIS) measurements. It was demonstrated that the electrochemical behavior of Co-Ni alloy deposition from sulfamate electrolytes was different significantly from that of from other electrolytes such as chloride or sulfate solutions. It is believed that the codeposition of CO-Ni alloys is inhibited by the adsorption of heteronuclear complexes on the electrode surface and the complexes are formed by the sulfamate anion as the bidentate ligand. From the standpoint of crystal-field theory, high-spin cobalt complexes with higher energy are less stable than that of nickel. Therefore the inhibition of sulfamate anion to Ni2+ is stronger than that to Co2+ and it cause the preferential reduction of Co2+ from the sulfamate solution. Moreover, according to the Nyquist plot, a electrical equivalent circuits for simulating the EIS of Co-Ni codeposition was composed and the reaction kinetic mechanism of the Co-Ni alloy electrochemical codeposition was studied.
作者 武刚 李宁 周德瑞
机构地区 哈尔滨工业大学应用化学系
出处 《高校化学工程学报》 EI CAS CSCD 北大核心 2005年第1期48-53,共6页 Journal of Chemical Engineering of Chinese Universities
基金 中国博士后科学基金(2004035300)。
关键词 Co-Ni合金 异常电沉积 电化学交流阻抗谱 氨基磺酸 Electrochemistry Electrodeposition Electrolytes Equivalent circuits Nickel alloys Nyquist diagrams Reaction kinetics
分类号 TF111.521 [冶金工程—冶金物理化学] TG146.16 [金属学及工艺—金属材料]
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参考文献12

  • 1武刚,李宁,杜明华,周德瑞.电沉积Co-Ni合金镀层结构及硬度的研究[J].材料科学与工艺,2002,10(4):419-423. 被引量:19
  • 2汪敏,秦炜,戴猷元.有机羧酸pK_a和亲油性的定量结构-性质关系[J].高校化学工程学报,2003,17(6):607-611. 被引量:4
  • 3王占良,唐致远.一种新型聚合物电解质中离子传递及界面性质研究[J].高校化学工程学报,2003,17(3):248-253. 被引量:4
  • 4Correia A N, Machado S A S. Electrodeposition and characterizations of thin layer of Ni-Co alloys obtained from dilute chloride baths [J]. Electrochimica Acta, 2000, 45(11): 1733-1738.
  • 5Gomez E, Ramirez J, Valles E. Electrodeposition of Co-Ni alloys [J]. J Appl Electrochem, 1998, 28(3): 71-76.
  • 6Burzynska L, Rudnik E. The influence of electrolysis parameters on the composition and morphology of Co-Ni alloys [J]. Hydrometallury, 2000, 54(1): 133-137.
  • 7Goldbach S, Kermadec R, Lapicque F. Electrodeposition of Ni-Co alloys from sulfamate baths [J]. J Appl Electrochem, 2000, 30(2): 277-284.
  • 8Golodnitsky D Y, Aulus R.The role of anion additives in the electrodeposition of nickel-cobalt alloys from sulfamate electrolyte [J]. Electrochimca Acta, 2002, 47(11): 2707-2714.
  • 9Golodnitsky D, Gudin N V, Volyanuk G A. Cathode process in nickel-cobalt alloy deposition from sulfamate electrolytes -application to electroforming [J]. Plating and Surface Finishing, 1998, 85 (2): 65-71.
  • 10Keith Y S, Jan B T. Electrodeposition of binary iron-group alloys [J]. J Electrochem Soc, 1995, 142(3): 775-783.

二级参考文献36

  • 1王飞越,陈雁飞.有机物的结构──活性定量关系及其在环境化学和环境毒理学中的应用[J].环境科学进展,1994,2(1):26-52. 被引量:14
  • 2戴树桂,庄源益,陈勇生,陈丽侠.合成有机物结构-生物降解性关系的研究[J].环境化学,1995,14(4):354-364. 被引量:17
  • 3迪安J A.兰氏化学手册[M].北京:科学出版社,1991..
  • 4Matsui S, Muranaga T, Higobashi H, et al. Liquid-free rechargeable Li polymer battery [J]. Journal of Power Sources, 2001,97-98: 772-774.
  • 5Li Q, Takeda Y, Imanish N, et al. Cycling performances and interfacial properties of a Li/PEO-Li(CF3SO2)2 N-ceramic filler/LiNi0.8Ro0.2O2 cell [J]. Journal of Power Sources, 2001, 97-98: 795-797.
  • 6Oh B, Kim Y R. Evaluation and characteristics of a blend polymer for a solid polymer electrolyte [J]. Solid State Ionies, 1999,124: 83-89.
  • 7Appetecchi G B, Croce F, Marassi R, et al. Novel types of lithium-ion polymer electrolyte batteries [J]. Solid State Ionics, 2001,143: 73-81.
  • 8Rajendran S, Kannan R,Mahendran O. Study on Li ion conduction behaviour of the plasticized polymer electrolytes based on polyacrylonitrile [J]. Materials Letters, 2001, 48: 331-335.
  • 9Ferry A, Doeff M M, Dejonghe L C. Transport property measurements of polymer electrolytes [J]. Electrochimtca ACTA, 1998,10-11: 1387-1399.
  • 10Ferry A, Doeff M M, Dejonghe L C. Transport property and raman sepectroscopic studies of the polymer electrolyte system P(EO)n-NaTFSI [J]. J Eleetrochem Soc, 1998, 145(5): 1586-1591.

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高校化学工程学报
2005年 第1期

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