Title :
A low-temperature metal-doping technique for engineering the gate electrode of replacement metal gate CMOS transistors
Author :
Pan, James ; Woo, Christy ; Ngo, Minh-Van ; Besser, Paul ; Pellerin, John ; Xiang, Qi ; Lin, Ming-Ren
Author_Institution :
Adv. Micro Devices Inc., Sunnyvale, CA, USA
Abstract :
This work describes a low-temperature metal annealing technique that can be a helpful tool for fabricating the gate electrode of replacement metal gate CMOS transistors. The goal of the technique is to form doped metal (TaSiN, TiSiN, TaCN, TaPN, etc.) to change the work function of the metal gate electrode. The low-temperature doping process was performed in an ambient containing the precursors of the dopants, including silane, phosphine, and carbon-rich organic precursors. Experiments have been conducted to incorporate dopants such as P, C, Si into TaN or TiN. The transistor and C-V data show the resultant doped metals are suitable materials for P- and N-MOSFETs by providing the right metal work function.
Keywords :
CMOS integrated circuits; MOSFET; annealing; carbon; integrated circuit metallisation; phosphorus; silicon; tantalum compounds; titanium compounds; work function; NMOSFETs; PMOSFETs; TaCN; TaN; TaPN; TaSiN; TiN; TiSiN; carbon-rich organic precursors; gate electrode engineering; low-temperature metal annealing technique; low-temperature metal-doping technique; phosphine; replacement metal gate CMOS transistors; silane; work function; Annealing; Atherosclerosis; Doping; Dry etching; Electrodes; Fabrication; Implants; MOSFET circuits; Tin; Voltage;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2003.815937
