Yi Sing Goh scite author profile

Electrochemical migration (ECM) is one of the serious failure modes encountered in electronic devices due to the electrochemical reactions triggered by the presence of moisture and bias voltage, leading to the growth of dendrites and short circuits. The classical ECM mechanism consists of four consecutive stages: (i) electrolyte formation, (ii) anodic dissolution, (iii) ion transport, and (iv) dendrite growth. ECM is a delicate process that involves a combination of a good number of factors, such as the electrode properties, climatic conditions, contaminants, electric field, additives, etc. We intend to provide a comprehensive review of the complex effects that these factors have on each stage of ECM and provide insights into the recent developments in ECM research. Previous findings, current debates and recent discoveries are covered in this article. This review paper also provides a review of recent strategies for ameliorating ECM failures in electronics.

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Formation and nanomechanical properties of intermetallic compounds in electrodeposited Cu–Sn–Co multilayers

Goh

Chia

et al. 2021

J Mater Sci: Mater Electron

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Formation and characterization of intermetallic compounds in electroplated cobalt–tin multilayers

Goh

Lee

Ong

et al. 2018

J Mater Sci: Mater Electron

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Effects of Concentration of Adipic Acid on the Electrochemical Migration of Tin for Printed Circuit Board Assembly

Goh

Haseeb

Basirun

et al. 2023

J. Electron. Mater.

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Yi Sing Goh

Review—Electrochemical Migration in Electronic Materials: Factors Affecting the Mechanism and Recent Strategies for Inhibition

Formation and nanomechanical properties of intermetallic compounds in electrodeposited Cu–Sn–Co multilayers

Formation and characterization of intermetallic compounds in electroplated cobalt–tin multilayers

Effects of Concentration of Adipic Acid on the Electrochemical Migration of Tin for Printed Circuit Board Assembly

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