Title :
ALD TiN Barrier Metal for pMOS Devices With a Chemical Oxide Interfacial Layer for 20-nm Technology Node
Author :
Ying-Tsung Chen ; Chien-Ting Lin ; Wen-Tai Chiang ; Mon-Sen Lin ; Chih-Wei Yang ; Jian-Cun Ke ; Shoou-Jinn Chang
Author_Institution :
Dept. of Electr. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
Abstract :
We propose the use of atomic layer deposition (ALD) TiN barrier to replace physical vapor deposition TiN barrier for high- k last/gate last pMOS devices with a chemical oxide interfacial layer in 20-nm technology node. It was found that the pMOS devices with ALD TiN exhibit lower gate leakage current density (Jg) and equivalent oxide thickness. Furthermore, it was found that we could achieve larger flat-band voltage (Vfb) and larger equivalent work function from the pMOS devices with ALD TiN barrier. It was also found that we could further improve the performances of the fabricated pMOS devices by increasing the ALD TiN thickness from 2 to 3 nm.
Keywords :
MIS devices; atomic layer deposition; high-k dielectric thin films; leakage currents; nanotechnology; titanium compounds; work function; ALD TiN barrier metal; TiN; atomic layer deposition; chemical oxide interfacial layer; equivalent oxide thickness; equivalent work function; flat-band voltage; gate leakage current density; high-k last-gate last pMOS devices; size 20 nm; technology node; Chemicals; High K dielectric materials; Logic gates; MOS devices; Performance evaluation; Tin; Flatband voltage $(V_{rm fb})$; effective work function (EWF); equivalent oxide thickness (EOT); gate leakage current density $(J_{g})$; high-$k$;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2013.2297341
