Despite advances in 2.5D and 3D packaging, ultrasonic wedge (stitch) bonding remains the industry standard due to its cost-effectiveness. However, the transition to copper (Cu) and palladium-coated copper (PCC) wire introduces reliability challenges, traditionally mitigated by expensive and environmentally concerning silver (Ag) plating on leadframes (LF). To address this, we developed a low-cost, ultrathin Cu-selective passivation coating that suppresses oxidation, enabling direct Cu-Cu bonding without Ag. This process-compatible coating was evaluated on Cu-LFs using 25 µm Al-1 wt% Si and PCC wires under varying thermal conditions (125 °C-200 °C). Optimization of bonding force, time, and ultrasonic power yielded substantial improvements in pull strength. Notably, while bare-Cu bonds failed at the oxidized interface, passivated samples failed at the wire neck, confirming superior bond integrity. This work highlights a promising, environmentally sustainable alternative to Ag plating, enabling reliable Cu-Cu stitch bonding for next-generation, low-cost IC packaging solutions.
Nair et al. (Fri,) studied this question.