| 3,964 | 72 | 140 |
| 下载次数 | 被引频次 | 阅读次数 |
化学镀铜技术主要用作印制线路板孔金属化和塑料电镀,其镀层具有良好的延展性、导热性和导电性。介绍了化学镀铜的应用范围与发展。强调了化学镀铜预处理的必要性及要注意的几个方面:应用易清洗的油脂作防锈剂,低碳钢件用阳极电解除油,酸洗除油与碱性除油互补等。介绍了化学镀铜的一些常用体系及其主要组分。讨论了添加剂的影响。对非金属表面化学镀铜的研究进展进行了报道。提出了化学镀铜今后的研究重点。
Abstract:Electroless copper plating is mainly applied to the metallization for PCB and electroplating on plastics, and copper electroless deposits have good ductibility, heat conductivility and electrical conductibility. Its application scope and development were introduced. This paper also emphasizes the necessity for pretreatment of electroless copper plating and some aspects that need attention including using grease that is easy to be cleaned as antirust agent and anodic electrolytic degreasing for low-carbon steel parts, and combined acidic decreasing and alkaline decreasing, etc. Some commonly used systems and their main components of electroless copper plating were introduced. The influences of additives were discussed. The research progress of electroless copper plating for nonmetal was reported. The research keystones of copper electroless plating were presented.
[1]胡光辉,杨防祖.陶瓷基上化学镀铜[J].电镀与涂饰,2001,20 (2):1-4.
[2] 高俊丽,王为.化学沉积法制备高分子导电微球[J].电镀与精 饰,1998,20(4):1-3.
[3] James F Rohan,Gerald O Riordan, Jane Boardman. Selective Electroless Nickel Deposition on Copper as a Final Barrier/Bonding Layer Material for Microelectronics Applications [J]. Applied Surface Science, 2002 ,185(12):289 -297.
[4] 夏传义,刘东卫.陶瓷电路基板的新型金属化技术[J].半导体情 报,1994,31(4):43-44.
[5] Francis Jnuzzi. Accelerating the Rate of Electroles Copper Plating [J]. Plating and Surface Finishing, 1998,73(1):46 -52.
[6] Honama H, Kobayashi. Electroless Copper Deposition Presence Using Glyoxylic Acidasa Reducing Agent [J]. Electrochen Soc, 1994,141(3):24-25.
[7] Mizumoto S, NaWa Tune H. Mechanical Properties of Copper Deposits from Eletroless, Plating Baths Containing Glycine [J]. Electrochem Soc,1986,76(12):39 -42.
[8] KondoK, Shikawall. Electroless Copper Plating in the Pressence of Excesss Trethanol Amine[J]. Electrochem Soc, 1990,137(6):55 -57.
[9]战余英,王德荣.直接氧化法化学镀铜液的稳定问题[J].电镀与 环保,1984,11(2):64-72.
[10]赵文轸.金属材料表面新技术[M].西安:交通大学出版社, 1992.76-81.
[11]赵斌,宋元伟,冯华东.化学镀铜层的表面处理[J],华东理工大 学学报,1998,24(5):585-589.
[12]詹益腾.镀前处理的改进[J].材料保护,2000,33(4):12-13.
[13]伍学高,李铭华.化学镀技术[M].成都:四川科学技术出版社, 1985.23-27.
[14]姜晓霞,沈伟.化学镀理论与实践[M].北京:国防工业出版社, 2000.104-109.
[15]赵斌,方晓,毛德芳.化学镀铜新工艺[J].华东理工大学学报, 1997,23(3):367-371.
[16]郭忠诚,刘鸿康,王志英,等.化学镀层的应用现状与展望[J].表 面技术,1995,24(6):1-7.
[17] Hajdu J. Electroless plating[J]. Plating & Surface Finishing, 1996, 83(9):29-33.
[18]董超,董根岭,周完贞.添加剂对化学镀铜的影响[J].材料保护, 1997,30(1):8-11.
[19]申顺保.高稳定性酒石酸盐化学镀铜[J].电镀与环保,1990,19 (3):44-48.
[20] Matsuoka M, Yoshida Y, Iwakura C, et al. The effects of aeration and accumulation of carbonate ions on the mechanical properties of electroless copper coatings [J].J Electrochem Soc,1995,142 (1): 87-91.
[21] Mizumoto S,Shin Horing Yeh, Jhy Yeong Gau, et al. The Effect of Organic Additives on a CuO Electroless Copper Bath [J]. Plat & Surf Finish, 1986,73(12):48-1.
[22] Bindra P, Van Den Meerakker J E A M. Mechanism of electroless metal plating[J]. J Electrochem Soc, 1985,132(2):2581 -2589.
[23] Hung A, Paunovic M. Effects of thiourea guanidine hydrochloride on electroless copper plating[J]. Electrochem Soc,1985,132 (4):1047 -1049.
[24] Francis J N. Corrections - Assembly of Microtubule Protein:Role of Guanosine Di- and Triphosphate Nucleotides [J]. Plat & Surf Finish,1983,70(1):51 -54.
[25] Kondo K, Ishida N, Ishikawa J, et al.Kinetiecs of electroless copper plating in the presence of excess triethanlolamine [J]. Bull Chem Soc Jpn,1992, 65(1):2380-2384.
[26]谷新,王周成,林昌健.络合剂和添加剂对化学镀铜影响的电化 学研究[J].电化学,2004,10(1):14-19.
[27] Sato N, Suzuki M. AC Impedance and Coulostatic Studies on Electrochemical Detection of 2-Mereaptobenzothiazale in a Copper Electroless Plating Bath [J]. Electrochem Soc, 1988, 135 (7):1645 -1647.
[28] Veleva R, Okinaka Y, Straschil H K. Role of Potassium Ferrocyanide in Electroless Copper Baths[J]. Electrochem Soc, 1986,29 (2):87 -88.
[29] Okinaka Y,Nakahara S, Mak C Y. Structure of Electroless Nickel Coating[J]. Plating and Surface Finishing, 1993,80(3):60.
[30] Nakahara S,Burke L D, Okinaka Y. An investigation of the anodic behavior of copper and its anodically produced oxides in aqueous solutions of high pH[J]. Electrochem Soc, 1990,138(5):1421 -1424.
[31] Kou S C, Zeblisky R. Deposition Rate and Morphology of Electroless Copper Film from Solutions Containing 2,2-dipyridyl [J]. Plat & Surf Finish, 2003,90(3):44 -47.
[32] Nuzzi F J. Accelerating the rate of electroless copper plating [J]. Plat&Surf Finish, 1983,70(1):51 -54.
[33] Kondo K,Ishida N,Ishikawa J, et al. Kinetiecs of electroless copper plating in the presence of excess triethanlolamine [J]. Bull Chem Soc Jpn,1995,139(9):2466 -2470.
[34] Kou S C, Hung A. Effect of buffer on electroless copper deposition [J]. Plat & Surf Finish, 2002,89(2):48 -52.
[35]宋元伟,赵斌.添加剂对化学镀铜层机械性能的影响[J].化学世 界,2000,1(7):13-15.
[36] Zhao X Ch, Guo Q L, Deng Q S, et al. Study on the new technique of Cu microplating based on ceramics[C]. Shanghai:12th National Conference on Electrochemistry , 2003. G25.
[37] Pan CT. Selective electroless copper plating microcoilassisted by 248 run excimer laser [J]. Microelectronic Engineering, 2004,71 (19):242-251.
[38]续振林,郭琦龙,沈艺程,等.陶瓷表面无敏化活化法微细化学镀 铜[J].电化学,2005,11(2):193-198.
[39]李瑞海,顾宜.聚苯乙烯塑料表面化学镀铜的研究[J].高分子材 料科学与工程,2004,20(4):208-211.
[40]罗朝晖,朱家琪,黄泽恩.木材/金属复合材料的研究[J].木材工 业,2000,14(6):25-27.
[41]周杲,赵广杰.木材表面化学镀处理技术[J].木材工业,2005,19 (3):8-11.
基本信息:
DOI:10.19289/j.1004-227x.2005.10.015
中图分类号:TQ153.14;
引用信息:
[1]李能斌,罗韦因,刘钧泉,徐金来.化学镀铜原理、应用及研究展望[J].电镀与涂饰,2005(10):.DOI:10.19289/j.1004-227x.2005.10.015.
基金信息: