Issue 37, 2017, Issue in Progress

Effects of the degradation of methane sulfonic acid electrolyte on the collapse failure of Sn–Ag alloy solders for flip-chip interconnections

Abstract

The present study investigates the degradation mechanism of a methanesulfonic acid (MSA) based electroplating bath used for the electrodeposition of Sn–Ag alloy solder bumps, and its effects on the microstructure of the solder and on the collapse failure of flip-chip solder bumps. To examine the degradation behavior of the electroplating bath, a degraded electrolyte is prepared by accelerated aging treatment. In the presence of dissolved oxygen and Ag+ ions in the electrolyte, the chemical oxidation of Sn2+ ions to Sn4+ ions and the precipitation of SnO2 nanoparticles with a diameter below 100 nm are promoted by the reduction of Ag+. Under cathodic bias, colloidal SnO2 particles are adsorbed on the surface of the Sn–Ag solder bumps via electrophoresis, and incorporated into the layer by the electrodeposition layer of Sn–Ag. The presence of oxide layer mainly composed of SnO2 on the surface of the bumps significantly reduces the friction coefficient of the solder surface by hardening the electrodeposits and deteriorates the solderability of the solder bumps, which leads to collapse failure during solder reflow.

Graphical abstract: Effects of the degradation of methane sulfonic acid electrolyte on the collapse failure of Sn–Ag alloy solders for flip-chip interconnections

Article information

Article type
Paper
Submitted
22 Feb 2017
Accepted
21 Apr 2017
First published
27 Apr 2017
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2017,7, 23136-23142

Effects of the degradation of methane sulfonic acid electrolyte on the collapse failure of Sn–Ag alloy solders for flip-chip interconnections

M. Park, D. Nam, K. Jung, K. Hong and H. Kwon, RSC Adv., 2017, 7, 23136 DOI: 10.1039/C7RA02193C

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