Using a Metal Oxide Adhesion Layer and Wet Chemical Cu Metallization for Fine Line Pattern Formation on Glass

Abstract With the trends towards miniaturization and heterogeneous integration, both IC and advanced substrate manufacturers are striving to meet the needs of next generation platforms, to increase the density of interconnects, and generate conductors featuring finer lines and spaces. Advanced manufacturing technologies such as Semi-Additive-Processing (SAP) and Advanced Modified-Semi-Additive-Processing (amSAP) were devised, realized and implemented in order to meet these requirements. Line and space (L/S) requirements of copper conductors will be below 5/5μm for advanced substrates, with 2/2μm L/S required for chip to chip connections in the near future. Herein we report about the performance of the new developed ferric sulfate based EcoFlash™ process for SAP and amSAP application with the focus on glass as the substrate and VitroCoat as thin metal oxide adhesion promotion layer. The adhesion promotion layer (about 5–10 nm thickness) is dip-coated by a modified sol-gel process followed by sintering whic...