An effective Cu-Sn barrier layer for Au bump used in optoelectronic devices

C. Y. Liu; S. J. Wang

doi:10.1557/JMR.2004.0330

An effective Cu-Sn barrier layer for Au bump used in optoelectronic devices

C. Y. Liu, S. J. Wang

化學工程與材料工程學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

5 引文斯高帕斯（Scopus）

摘要

By studying reactions between Au foils and Sn(Cu) alloys, we found that the Au consumption rate depended on the Cu-content of the Sn(Cu) solders. The higher Cu-content alloys had faster Au consumption rates. When the Au foil was pre-coated with a Ni layer and then reacted with Sn(Cu) alloys having a Cu-content of more then 1.5 wt%, a stable ternary (Cu,Ni)₆Sn₅ compound layer was observed on the Au foil. This ternary compound layer then served as a barrier layer that effectively prevented the Au foil from reacting with the molten solder. This result enabled the implementation of a flip-chip assembly process for the fabrication of optoelectronic devices.

原文	???core.languages.en_GB???
頁（從 - 到）	2536-2540
頁數	5
期刊	Journal of Materials Research
卷	19
發行號	9
DOIs	https://doi.org/10.1557/JMR.2004.0330
出版狀態	已出版 - 9月 2004

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10.1557/JMR.2004.0330

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abstract = "By studying reactions between Au foils and Sn(Cu) alloys, we found that the Au consumption rate depended on the Cu-content of the Sn(Cu) solders. The higher Cu-content alloys had faster Au consumption rates. When the Au foil was pre-coated with a Ni layer and then reacted with Sn(Cu) alloys having a Cu-content of more then 1.5 wt%, a stable ternary (Cu,Ni)6Sn5 compound layer was observed on the Au foil. This ternary compound layer then served as a barrier layer that effectively prevented the Au foil from reacting with the molten solder. This result enabled the implementation of a flip-chip assembly process for the fabrication of optoelectronic devices.",

author = "Liu, {C. Y.} and Wang, {S. J.}",

note = "Funding Information: We are appreciative of the support from the NSC (Taiwan National Science Council) and the MOE Program for Promoting Academic Excellence at Universities under the grant number 91-E-FA06-1-4. We also would like to thank Opto-Electronics & Systems Laboratories (ITRI, Hsin chu, Taiwan) for financial support.",

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N2 - By studying reactions between Au foils and Sn(Cu) alloys, we found that the Au consumption rate depended on the Cu-content of the Sn(Cu) solders. The higher Cu-content alloys had faster Au consumption rates. When the Au foil was pre-coated with a Ni layer and then reacted with Sn(Cu) alloys having a Cu-content of more then 1.5 wt%, a stable ternary (Cu,Ni)6Sn5 compound layer was observed on the Au foil. This ternary compound layer then served as a barrier layer that effectively prevented the Au foil from reacting with the molten solder. This result enabled the implementation of a flip-chip assembly process for the fabrication of optoelectronic devices.

AB - By studying reactions between Au foils and Sn(Cu) alloys, we found that the Au consumption rate depended on the Cu-content of the Sn(Cu) solders. The higher Cu-content alloys had faster Au consumption rates. When the Au foil was pre-coated with a Ni layer and then reacted with Sn(Cu) alloys having a Cu-content of more then 1.5 wt%, a stable ternary (Cu,Ni)6Sn5 compound layer was observed on the Au foil. This ternary compound layer then served as a barrier layer that effectively prevented the Au foil from reacting with the molten solder. This result enabled the implementation of a flip-chip assembly process for the fabrication of optoelectronic devices.

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An effective Cu-Sn barrier layer for Au bump used in optoelectronic devices

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