微电子中银在常规和可生物降解衬底上的电化学迁移

Proceedings of the 2014 37th International Spring Seminar on Electronics Technology Pub Date : 2014-05-07 DOI:10.1109/ISSE.2014.6887604

B. Medgyes, I. Hajdu, R. Berényi, L. Gál, M. Ruszinkó, G. Harsányi

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引用次数: 12

摘要

采用水滴(WD)测试和接触角测量方法，研究了银导体线在不同微电子衬底上的电化学迁移行为。本研究还研究了环境友好型底物作为传统底物的可能候选物。ECM是一种短路失效现象，在微电路运行过程中，当导体-介电-导体系统出现湿气时，会导致串联缺陷。结果表明，与传统的生物降解基质模式相比，新型生物降解基质模式具有显著更高的ECM风险。其主要原因可能是不同的润湿行为和不同的工艺流程的导线精度。

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Electrochemical migration of silver on conventional and biodegradable substrates in microelectronics

Water drop (WD) test and a contact angle measurement method were used to investigate the electrochemical migration (ECM) behavior on different microelectronic substrates with silver conductor lines in all cases. Environment friendly substrates were also investigated in this study as possible candidates of the conventional ones. ECM is kind of short failure phenomenon, which can lead to series defect in case of operating microcircuits, when moisture appears on/in a conductor-dielectric-conductor system. The results show that the novel biodegradable substrate patterns can have a significant higher ECM risk comparing to the conventional ones. The main causes can be the different wetting behavior and the different conductor line accuracy of the technological processes.

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Proceedings of the 2014 37th International Spring Seminar on Electronics Technology

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