Title :
Thermal desorption behaviour of adsorbed materials on wafer surfaces
Author :
Jimbo, Tomoko ; Sakai, Satoshi ; Katuyama, Kiyomi ; Ito, Masaki ; Tomioka, Hicleki
Author_Institution :
Device Dev. Center, Hitachi Ltd., Tokyo, Japan
Abstract :
The influence of organic contamination on dielectric breakdown of a gate oxide was evaluated. Preventing air exposure during wafer processing from gate oxidation through poly Si CVD was shown to result in lower defect densities, and results obtained with a thermal desorption spectrum-atmospheric pressure ionization mass spectrometer showed that were the source of organic contamination gases released from plastic storage cases and that organic contaminants were not removed from the wafer surface at the processing temperature of poly Si CVD. We think the degradation of the gate oxide integrity has been interpreted in terms of local reduction of the gale oxide by the organic contamination at the interface between the gate oxide and the poly Si electrode
Keywords :
chemical vapour deposition; desorption; electric breakdown; elemental semiconductors; mass spectrometers; organic compounds; silicon; spectrochemical analysis; Si; adsorbed materials; air exposure; dielectric breakdown; gate oxidation; gate oxide; gate oxide integrity; local reduction; organic contaminants; organic contamination gases; plastic storage cases; poly Si electrode; polysilicon CVD; spectrum-atmospheric pressure ionization mass spectrometer; thermal desorption; wafer processing; wafer surfaces; Dielectric breakdown; Dielectric materials; Gases; Ionization; Mass spectroscopy; Oxidation; Plastics; Surface contamination; Temperature; Thermal degradation;
Conference_Titel :
Semiconductor Manufacturing Conference Proceedings, 1997 IEEE International Symposium on
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-3752-2
DOI :
10.1109/ISSM.1997.664544
