期刊文献+

添加剂对化学沉积速率的影响 被引量:16

Effect of Additives on Electroless Deposition Rate
下载PDF
导出
摘要 基于化学镀Ni-W-P和Ni-P体系中,添加剂LaCl3、乳酸、Fe2(SO4)3、硫脲和2,2'-联吡啶的浓度对沉积速率的影响表现出较为一致的变化规律,即随添加剂浓度的增加,出现最大沉积速率的实验事实,建立了一种吸附模型并导出添加剂加速化学沉积的公式.根据该公式和实验结果进行曲线拟合,得到相当吻合的结果.由拟合结果可得到一些参数值,如吸附平衡常数等.添加剂在基体上的吸附平衡常数(K1)大于已吸附了还原剂的表面上的吸附平衡常数(K2).K1值大表明添加剂在基体表面吸附能力更强.LaCl3、硫脲和2,2'-联吡啶的K1、K2值远大于乳酸、Fe2(SO4)3的K1、K2值,这表明LaCl3、硫脲和2,2'-联吡啶的吸附能力远强于乳酸、Fe2(SO4)3的,因此,LaCl3、硫脲和2,2'-联吡啶所引起的沉积速率峰值的浓度远小于乳酸、Fe2(SO4)3的. It has been known experimentally that, additives, such as LaCl3 lactic acid, Fe-2(SO4)(3), thiourea and 2, 2'-bipyridine, regularly influence the electroless deposition rate, that is, there is a maximum deposition rate with increasing additives concentration. In order to explore this regularity, an adsorption model is proposed and a deposition rate formula is deduced. The deposition rate formula is used to operate nonlinear curve fitting. The fitting curves obtained, correspond with the experimental results. Some parameters can be obtained from the fitting results, such as adsorption equilibrium constants of additives. It is found that the adsorption equilibrium constant on the naked surface(K-1) is larger than that on the adsorbed reductant (K-2). The larger K-1 means that additives adsorb on the naked surface more easily than on the adsorbed reductant. The adsorption ability of different additives also can be illustrated through K-1 and K-2. For example, the K-1, K-2 of LaCl3, thiourea and 2, 2'-bipyridine are greater than that of lactic acid and Fe-2(SO4)(3). The comparison indicates that the adsorption ability of LaCl3, thiourea and 2, 2'-bipyridine is stronger than that of lactic acid and Fe-2(SO4) (3). Thus the concentration of LaCl3, thiourea and 2, 2'-bipyridine, which corresponds to maximum deposition rate, is smaller than that of lactic acid and Fe-2(SO4)(3).
出处 《物理化学学报》 SCIE CAS CSCD 北大核心 2004年第3期327-330,共4页 Acta Physico-Chimica Sinica
基金 国家自然科学基金(20073035)~~
关键词 化学镀 镀液添加剂 化学沉积速率 加速作用 作用机理 氯化镧 硫酸铁 乳酸 硫脲 2 2’-联吡啶 electroless deposition rate LaCl3 lactic acid Fe-2(SO4)(3) thiourea 2, 2 '-bipyridine
  • 相关文献

参考文献12

  • 1Homma,T.; Komatsu,I.; Tamaki,A.; Nakai,H.; Osaka,T. Electrochimica Acta,2001,47: 47
  • 2Gad,M.R.; El-Magd,A. Metal Finishing,2001,99(2): 77
  • 3Lin,K.L.; Hwang,J.W. Materials Chemistry and Physics,2002,76: 204
  • 4Hung,A. J. Electrochem. Soc.,1985,132(5): 1047
  • 5Paunovic,M.; Arndt,R.J. Eelectrochem. Soc.,1983,130(4): 794
  • 6Yan,Y.S.; Huang,S.K. Materials Protection,1996,29(5): 24 [严易舒,黄树坤 .材料保护(Cailiao Baohu),1996,29(5): 24]
  • 7An,M.Z.; Yang,Z.L. The Chinese Journal of Nonferrous Metals,1999,9(1): 155 [安茂忠,杨哲龙 .中国有色金属学报(Zhongguo Youse Jinshu Xuebao)],1999,9(1): 155]
  • 8Oni,A. Trans. IFM,1988,66: 47
  • 9刘永健 王印培.华东理工大学学报(Huadong Ligong Daxue Xuebao),2001,27(3):301-301.
  • 10Kondo,K.; Ishikawa,J.; Takenaka,O.; Matsubara,T. J. Electrochem. Soc.,1991,138(12): 3629

共引文献1

同被引文献94

引证文献16

二级引证文献60

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部