Title :
Particle-free wafer cleaning and drying technology
Author :
Mishima, H. ; Yasui, T. ; Mizuniwa, T. ; Abe, M. ; Ohmi, T.
Author_Institution :
Tokuyama Soda Co. Ltd., Yamaguchi, Japan
fDate :
8/1/1989 12:00:00 AM
Abstract :
It is reported that an NH4OH-H2O2 solution is excellent for removing particulate contaminants from VLSI silicon wafers after chemical solution treatment. The ratio of NH4 OH in the solution can be reduced down to 1/10 of the standard ratio while keeping high removal efficiency. By decreasing the NH4 OH content, wafer damage which appears as a so-called haze during the NH4OH-H2O2 treatment is reduced. To establish a particle-free wafer drying system, a particle-generation-free isopropanol (IPA) vapor drying system has been developed. By eliminating all possible particle generation sources from the drying system, ultraclean wafer drying equipment has been realized. A number of parameters to be controlled have been thoroughly investigated. Three were found to seriously influence surface cleanliness after drying: the water content in the IPA, temperature distribution around the wafers, and the IPA vapor velocity. The optimum drying conditions in which high quality of wafer surface cleanliness can be realized were confirmed experimentally
Keywords :
VLSI; drying; integrated circuit manufacture; semiconductor technology; surface treatment; IPA vapor velocity; NH4OH-H2O2 solution; Si wafers; chemical solution treatment; high removal efficiency; optimum drying conditions; particle generation sources elimination; particle removal; particle-free wafer cleaning; particle-free wafer drying system; particle-generation-free isopropanol; removing particulate contaminants; temperature distribution; ultraclean wafer drying equipment; vapor drying system; wafer damage; water content; Chemical processes; Chemical technology; Fabrication; Scanning electron microscopy; Silicon; Surface cleaning; Surface contamination; Testing; Ultra large scale integration; Water pollution;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
