Title :
Advanced ultrapure water systems with low dissolved oxygen for native oxide free wafer processing
Author :
Yagi, Yasuyuki ; Imaoka, Takashi ; Ksama, Y. ; Ohmi, Tadahiro
Author_Institution :
Dept. of Electron., Tohoku Univ., Sendai, Japan
fDate :
5/1/1992 12:00:00 AM
Abstract :
In the manufacture of submicron or deep submicron ULSIs, it is important to completely suppress native oxide growth on the silicon wafer surfaces. In a wet process, dissolved oxygen must be removed from the ultrapure water used for the final rinsing of the wafer. Two independent systems for the supply of ultrapure water, augmented with new techniques to remove dissolved oxygen, have been installed in the mini-super-clean room at Tohoku University. Both systems use two-stage dissolved oxygen removing methods. System one uses vacuum degassing through membrane and catalytic resin-based reduction, while system two uses vacuum degassing through membrane and nitrogen gas bubbling. Both systems can supply ultrapure water of 10 ppb or less in dissolved oxygen concentration. The concentrations of other impurities such as TOC, silica and total residue are also 1 ppb or less
Keywords :
VLSI; clean rooms; integrated circuit technology; water treatment; H2O supply; O2 removal; Si wafer processing; Tohoku University; catalytic resin-based reduction; deep submicron VLSI; final rinsing; low dissolved oxygen; membrane degassing; mini-super-clean room; native oxide free wafer processing; nitrogen gas bubbling; ultrapure water systems; vacuum degassing; Biomembranes; Etching; Manufacturing processes; Oxygen; Semiconductor films; Silicon; Surface contamination; Ultra large scale integration; Vacuum systems; Yagi-Uda antennas;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
