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Time and Temperature Dependence of Copper Protrusion in Metallized Through-Glass Vias (TGVs) Fabricated in Fused Silica Substrate

Chukwudi Okoro, Pamela Maurey, Scott Pollard

2021IEEE Transactions on Device and Materials Reliability23 citationsDOI

Abstract

In this work the influence of annealing dwell time and temperature, as well as post-annealing thermal processing treatment on copper (Cu) protrusion in Cu through-glass vias (TGVs) were studied. The Cu TGVs were made in Corning HPFS Fused Silica substrate, with a diameter and depth of 50 μm and 300 μm, respectively. For a constant annealing temperature of 400 °C, the results show a dependence of Cu protrusion with annealing dwell time, which saturates at about 240 min. Additional post-annealing thermal processing treatment, done at 400 °C (60 min dwell time) revealed that when an annealing dwell time ≥ 120 min is used no difference in the amount of Cu protrusion was found between the annealing step and the post-annealing thermal processing step. This indicates that downstream Cu protrusion can be eliminated when an annealing dwell time ≥ 120 min is used. On the other hand, from the temperature - dependent study of the annealing treatment, it was found that downstream Cu protrusion occurrence can be eliminated by performing annealing treatment at 450 °C (60 min dwell time), followed by post-annealing thermal processing treatment of 400 °C (60 min dwell time). Therefore, downstream Cu protrusion from a thermal processing treatment of 400 °C with 60 min dwell time can be eliminated either by using a longer annealing dwell time (120 min) at 400 °C or by increasing the annealing temperature to 450 °C, with a shorter dwell time of 60 min.

Topics & Concepts

Annealing (glass)Dwell timeMaterials scienceCopperComposite materialMetallurgyMedicineClinical psychology3D IC and TSV technologiesElectronic Packaging and Soldering TechnologiesCopper Interconnects and Reliability
Time and Temperature Dependence of Copper Protrusion in Metallized Through-Glass Vias (TGVs) Fabricated in Fused Silica Substrate | Litcius