A Dual-Metal Gate Integration Process for CMOS With Sub-1-nm EOT<tex>$hbox HfO_2$</tex>by Using HfN Replacement Gate

Abstract

A replacement gate process employing a HfN dummy gate and sub-1-nm equivalent oxide thickness (EOT) HfO/sub 2/ gate dielectric is demonstrated. The excellent thermal stability of the HfN-HfO/sub 2/ gate stack enables its use in high temperature CMOS processes. The replacement of HfN with other metal gate materials with work functions adequate for n- and pMOS is facilitated by a high etch selectivity of HfN with respect to HfO/sub 2/, without any degradation to the EOT, gate leakage, or time-dependent dielectric breakdown characteristics of HfO/sub 2/. By replacing the HfN dummy gate with Ta and Ni in nMOS and pMOS devices, respectively, a work function difference of /spl sim/0.8 eV between nMOS and pMOS gate electrodes is achieved. This process could be applicable to sub-50-nm CMOS technology employing ultrathin HfO/sub 2/ gate dielectric.