Yield enhancement through defect reduction for post wet silicon nitride etch applications

Author

Dries, Brian M.

Author_Institution

Fairchild Semicond., South Portland, ME, USA

fYear

2004

fDate

4-6 May 2004

Firstpage

10

Lastpage

14

Abstract

Silicon etching in hot phosphoric acid is not new to the semiconductor manufacturing field. It has been used for decades to remove silicon nitride after LOCOS processes while preserving the integrity of the previously grown oxide. The etch has a high selectivity resulting in a good fit for this purpose. This paper will present an innovative cleaning technique for post hot phosphoric acid nitride strip applications that provide yield improvement through particle and defect reduction. The application developed at Fairchild Semiconductor, uses ammonium hydroxide, ozone, and water introduced in controlled amounts to promote the dissolution and removal of organic silicon nitride etch residues. This removal prevents downstream defect formation, improving product yields and long-term device reliability.

Keywords

crystal defects; dissolving; elemental semiconductors; etching; integrated circuit reliability; integrated circuit yield; oxidation; scanning electron microscopy; silicon; surface cleaning; surface contamination; Fairchild semiconductor; LOCOS processes; Si; cleaning; defect formation; defect reduction; device reliability; dissolution; organic silicon nitride etch; particle reduction; semiconductor manufacturing; silicon etching; strip applications; wet silicon nitride etch applications; yield enhancement; Hardware; Marine vehicles; Semiconductor device manufacture; Silicon; Surface cleaning; Surface contamination; Surface treatment; Temperature control; Viscosity; Wet etching;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Semiconductor Manufacturing, 2004. ASMC '04. IEEE Conference and Workshop

Print_ISBN

0-7803-8312-5

Type

conf

DOI

10.1109/ASMC.2004.1309525

Filename

1309525