Abstract
CoSi 2 is a promising material for self-aligned silicide (salicide) applications in sub-0.25 μm complementary metal–oxide–semiconductor (CMOS) technology. In conventional salicide technology, silicides are formed by a solid-state reaction (SSR) after source/drain formation. With the continued scaling down of junction depths, surface and interface roughness of silicides is a growing concern. In this work, a comparative study has been made to investigate the morphology and thermal stability of CoSi 2 formed by SSR of different structures, i.e. Co/Si, TiN/Co/Si, Ti/Co/Si, Co/Ti/Si and Ti/Co/Ti/Si. Atomic force microscopy and other techniques were used to characterize the morphology and thermal stability. Compared with the Co/Si reaction, TiN or Ti capping reduces the roughness and improves the thermal stability. The reaction with a Ti interfacial layer shows epitaxial growth of CoSi 2 on Si (100). The morphology and thermal stability of epitaxial CoSi 2 were significantly improved. The epitaxial CoSi 2 may be useful for contact in deep submicrometer CMOS devices.
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