Low-Temperature Oxidation Kinetics of Polymer-Embedded ECD Copper

Low-temperature copper oxidation results obtained on a photosensitive poly-mer-based redistribution layer process are presented. Focused ion beam cross-sections were performed on 2.5-lm-thick copper lines embedded in polymer to monitor the growth kinetics of Cu2O in air for the temperature range 100- 200 degrees C. Below a transition temperature of 143 +/- 7 degrees C, the oxide growth follows a cubic rate law with an activation energy of 0.71 +/- 0.06 eV. At higher tem-peratures, the oxidation process is diffusion controlled and its kinetics follows a parabolic rate law with an activation energy of 0.36 +/- 0.03 eV.