DocumentCode
1522872
Title
Deuterium passivation of interface traps in MOS devices
Author
Cheng, Kangguo ; Hess, Karl ; Lyding, Joseph W.
Author_Institution
Dept. of Mater. Sci. & Eng., Illinois Univ., Urbana, IL, USA
Volume
22
Issue
9
fYear
2001
Firstpage
441
Lastpage
443
Abstract
The mechanism for deuterium passivation of interface traps in MOS devices is studied. Normal channel hot electron (CHE) stress was performed on hydrogen-passivated devices to locally desorb hydrogen from the interface at the drain region. The stressed devices were annealed in deuterium at 400/spl deg/C, resulting in a full recovery of device characteristics. These devices were then subjected to CHE stress again in two modes. Some of them were stressed in the normal mode while others were stressed in the reverse mode in which the source and drain were interchanged. Compared with hydrogenated devices, these deuterated devices under the normal stress exhibit a significant reduction in interface trap generation and threshold voltage shift. In contrast, insignificant reliability improvement was observed for the reverse stress case. The asymmetric degradation behaviors on these deuterated devices suggest that the effectiveness of implementing deuterium to improve device reliability is limited by its replacement of pre-existing hydrogen at the oxide/silicon interface.
Keywords
MOSFET; deuterium; hot carriers; hydrogenation; interface states; passivation; semiconductor device reliability; semiconductor device testing; 400 C; MOS devices; SiO/sub 2/-Si; asymmetric degradation behavior; channel hot electron stress; deuterium passivation; interface traps; local hydrogen desorption; n-channel MOST; normal mode stressing; oxide/silicon interface; reliability; reverse mode stressing; threshold voltage shift; Annealing; Channel hot electron injection; Degradation; Deuterium; Electron traps; Hydrogen; MOS devices; Passivation; Stress; Threshold voltage;
fLanguage
English
Journal_Title
Electron Device Letters, IEEE
Publisher
ieee
ISSN
0741-3106
Type
jour
DOI
10.1109/55.944333
Filename
944333
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