Title :
Novel process strategies for strip over tin
Author :
Li Diao ; Vaniapura, Vijay ; Mueller, Richard
Author_Institution :
Plasma Product Group, Mattson Technol., Inc., Fremont, CA, USA
Abstract :
Reducing chemistry and process strategies were investigated for strip application with TiN exposed. Base on TiN film loss specification, different chemistries were explored systematically. O2 rich reducing chemistry greatly reduced the film loss to ~10A with latest thin atomic layer deposition (ALD) TiN, while maintaining high ash rate. Pure reducing chemistry was capable of further reducing the loss down to 6-7 A with reducing N2 mixture or down to 1-3 A level with a group of proprietary reducing mixtures. Increasing RF power compensated the low ash rate compared to pure H2 process. One step further, the two processes can be combined to provide additional improvement on productivity. The overall TiN loss is caused by oxidation. Even with pure reducing process, XPS results showed that TiO2 and TiNxOy are present as the top surface layers. Reducing N2 mixture had more TiO2 formed than the new group of mixtures.
Keywords :
atomic layer deposition; oxidation; strips; thin films; titanium compounds; ALD; RF power compensation; TiN; XPS; ash rate maintainance; atomic layer deposition; chemistry reduction strategy; current 1 A to 3 A; current 6 A to 7 A; film loss specification; oxidation; process strategy; strip application; Oxidation; Plasmas; Process control; Silicon; Strips; Tin; 02 rich reducing chemistry; Pure reducing chemistry; Reducing chemistry; Sheet resistance; Strip; TiN;
Conference_Titel :
Advanced Semiconductor Manufacturing Conference (ASMC), 2013 24th Annual SEMI
Conference_Location :
Saratoga Springs, NY
Print_ISBN :
978-1-4673-5006-8
DOI :
10.1109/ASMC.2013.6552821
