Flip-chip interconnect and 3-D packaging applications must utilize reliable, high-performance metallization products in order to produce highly-efficient, low-cost microelectronic devices. As the market moves to shrinking device architectural features and increasingly difficult pattern layouts, more demand is placed on the plating performance of the copper, nickel and lead-free solder products used to create these interconnects. Additionally, the move from traditional C4 bumping processes with lead-free solder to capping processes utilizing copper pillars with lead-free solder requires metal interfaces that are highly compatible in order to avoid defects that could occur. In this paper, next-generation products developed for copper pillar, nickel barrier, and lead-free solder plating will be introduced that are capable of delivering high-performance and highly reliable metallic interconnects. The additive packages that were selected and optimized allowing for increased rate of electrodeposition, uniform height control with controllable pillar shape and smooth surface morphology will be discussed. Furthermore, compatibility will be shown for a lead-free solder cap electrodeposited onto copper pillar structures, both with and without nickel barrier layers, on large pore features (≥50 μm diameter) and micro pore features (≤20 μm diameter) for both bumping and capping applications.
Vertical Co9S8 hollow nanowall arrays grown on a Celgard separator as a multifunctional polysulfide barrier for high-performance Li–S batteries