Abstract

Highly manufacturable sub-100-nm 1.2-V mobile dynamic random access memory (DRAM) having full functionality and excellent reliability have been successfully developed. A unique and simple DRAM technology with dual-gate CMOSFET was realized using plasma-nitrided thin gate oxide and p/sup +/ poly gate formed by BF/sub 2/ ion implanted compensation of in situ phosphorus (n/sup +/) doped amorphous silicon gate. Using this technology, boron penetration into the channel, gate poly depletion, and dopant interdiffusion between n/sup +/- and p/sup +/-doped WSi/sub x/-polycide gates were successfully suppressed. In addition, a negatively biased word line scheme and a storage capacitor with laminated high-/spl kappa/ Al/sub 2/O/sub 3/ and HfO/sub 2/ dielectrics were also developed to achieve mobile DRAM operating at 1.2 V with excellent performance and reliability.