Title :
Advantage of Siconi Preclean over Wet Clean for Pre Salicide Applications Beyond 65nm Node
Author :
Lei, Jianxin ; Phan, See-Eng ; Lu, Xinliang ; Kao, Chien-Teh ; Lavu, Kishore ; Moraes, Kevin ; Tanaka, Keiichi ; Wood, Bingxi ; Ninan, Biju ; Gandikota, Srinivas
Author_Institution :
Appl. Mater., Santa Clara
Abstract :
For advanced devices at 65 nm node and beyond, nickel silicide formed by depositing Ni or its alloys with subsequent annealing has been chosen as the source/drain and gate contact materials. An in-situ dry chemical cleaning technology (Siconi ) has been developed to be integrated with PVD nickel deposition, thus forming a defect-free silicide/Si interface. Queue time related surface contamination and defects caused by using wet (HF) chemical cleaning are thus eliminated. The dry and wet etch methods are compared in this paper in terms of the film Rs, microstructure and thermal stability, as well as the line width effects measured on test wafers.
Keywords :
annealing; coating techniques; surface cleaning; surface contamination; thermal stability; Siconi preclean; annealing; dry chemical cleaning technology; nickel deposition; nickel silicide; surface contamination; thermal stability; wet clean; Annealing; Atherosclerosis; Chemical technology; Cleaning; Dry etching; Hafnium; Nickel alloys; Silicides; Surface contamination; Wet etching;
Conference_Titel :
Semiconductor Manufacturing, 2006. ISSM 2006. IEEE International Symposium on
Conference_Location :
Tokyo
Print_ISBN :
978-4-9904138-0-4
DOI :
10.1109/ISSM.2006.4493117
