DocumentCode
3231512
Title
Composition and thermal stability of chemically formed SiO2 oxides
Author
Bernhardt, G. ; Frankel, D. ; Lad, R.J. ; Nason, K. ; Carbone, T.A.
Author_Institution
Lab. for Surface Sci. & Technol., Maine Univ., Orono, ME, USA
fYear
1999
fDate
1999
Firstpage
132
Lastpage
135
Abstract
The properties of the SiO2 chemical oxide layer fabricated at the interface between the Si substrate and polysilicon overlayer are critical for obtaining desired electrical response in bipolar polysilicon emitter transistors. The required uniformity in fabricating the layer is achieved by using a wet chemical peroxide bath. In this paper the physical thickness and composition of the chemical oxide is explored. Wet chemistry bath parameters were varied including temperature and hydrogen peroxide concentration. The resulting thickness and composition of the chemical oxide layer were measured using X-ray photoelectron spectroscopy and ellipsometry. The stability of the chemical oxide layers was investigated under ambient conditions. Results indicate that a 1 nm thick chemical oxide film increased to 2 nm in thickness over a 24 hour period in ambient air and that the layer was a mix of stoichiometric SiO2 and intermediary states. During the 24 hour period in ambient air, an increase in carbon contamination was seen. Varying the wet chemistry bath parameters showed that at the highest temperatures, the thickness of the chemical oxide decreased, suggesting that the hydrogen peroxide is rapidly losing potency
Keywords
X-ray photoelectron spectra; bipolar transistors; ellipsometry; etching; insulating thin films; oxidation; semiconductor-insulator boundaries; silicon compounds; surface cleaning; surface composition; surface contamination; surface topography; thermal stability; 1 nm; 2 nm; Si; SiO2; SiO2-Si; X-ray photoelectron spectra; bipolar polysilicon emitter transistors; carbon contamination; chemical oxide layer; composition; ellipsometry; intermediary states; physical thickness; required uniformity; roughness; stoichiometric state; substrate-overlayer interface; thermal stability; wet chemical peroxide bath; wet chemistry bath parameters; Chemicals; Chemistry; Contamination; Ellipsometry; Pollution measurement; Spectroscopy; Substrates; Temperature; Thermal stability; Thickness measurement;
fLanguage
English
Publisher
ieee
Conference_Titel
Advanced Semiconductor Manufacturing Conference and Workshop, 1999 IEEE/SEMI
Conference_Location
Boston, MA
ISSN
1078-8743
Print_ISBN
0-7803-5217-3
Type
conf
DOI
10.1109/ASMC.1999.798200
Filename
798200
Link To Document