Sputtering electrode with multiple metallic-layer structure for semiconductor device and method for producing same

Inventors

• Kaixuan Shi · Lo Wu, CN
• Haodian Shi · Lo Wu, CN
• Yanqing Wu · West Lafayette, US
• Anping Hu · Chengdu, CN
• Xibei Yu · Lo Wu, CN

Key dates

Classification

• Technology area (CPC H)Electricity
• CPC primaryH01C7/008
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

An electrode with multiple metallic-layers structure formed by a magnetron sputtering technique for a semiconductor device and method for producing same is disclosed. The ceramic device includes at least one from selected group consisting of ZnO-MOV (metal oxide varistors), BaTiO3-PTC (positive temperature coefficient) thermistors, Mn3O4-NTC (negative temperature coefficient) thermistors, and capacitors. The multiple metallic-layers include a sputtered buffer layer and a sputtered electrical contact layer. The buffer layer includes at least one alloy selected form group consisting of NiCr (Ni from 50-90 wt %), TiNi (Ti from 40-60 wt %), and AlNi (Al from 40-70 wt %) and the thickness of this layer is from greater than zero to less than 100 nm. The electrical contact layer includes at least one of Cu, Ag, Pt, Au, or combination. More specifically, the electrode includes one of NiCr/Cu system, NiCr/Ag system, NiCr/Cu/Ag system, TiNi/Cu/Ag system, or AlNi/Cu/Ag system. The thickness ratio of the electrical contact layer to the intermetallic barrier layer is from 1 to 4.