Title :
Process advances in plasma photoresist and residue removal with the use of H2O vapor
Author :
Sonnemans, Roger ; Waldfried, Carlo ; Rastegar, Abbas ; Broekaart, Marcel
Author_Institution :
Axcelis Technol. Inc., Rockville, MD, USA
fDate :
31 March-1 April 2003
Abstract :
The benefits of H2O-vapor, when added to a downstream plasma for post-via etch residue removal is discussed. This paper provides results of the polymer removal effectiveness of a FOx low-k post-via-etch application when H2O vapor is added to the clean process plasma. Two significant findings are presented: (1) The importance of maintaining a low temperature during the residue removal step in order to prevent the ´hardening´ of the residues, and (2) the benefit of using an intermediate plasma-free step that includes H2O-vapor, for effective removal. Polymers were observed to separate from the sidewall during processes with the intermediate H2O vapor step and rendered removable in a subsequent DI water rinse. This resulted in a significant enhancement of the yield, compared to the standard high temperature H2O-vapor-free process of record.
Keywords :
integrated circuit manufacture; photoresistors; plasma CVD coatings; plasma materials processing; polymer films; surface cleaning; water; H2O; H2O vapor; IC device manufacturing; TiN; TiN etch stop layer; clean process plasma; downstream plasma; intermediate H2O vapor step; intermediate plasma-free step; low temperature; low-k post-via-etch application; plasma photoresist removal; polymer removal effectiveness; polymers; post-via etch residue removal; water rinse; yield enhancement; Dielectrics; Dry etching; Manufacturing processes; Plasma applications; Plasma chemistry; Plasma materials processing; Plasma temperature; Polymers; Resists; Wet etching;
Conference_Titel :
Advanced Semiconductor Manufacturing Conference and Workshop, 2003 IEEEI/SEMI
Print_ISBN :
0-7803-7681-1
DOI :
10.1109/ASMC.2003.1194463
