Device performance of in situ steam generated gate dielectric nitrided by remote plasma nitridation

Device performance of in situ steam generated gate dielectric nitrided by remote plasma nitridation

In situ steam generated (ISSG) oxides have recently attracted interest for use as gate dielectrics because of their demonstrated reliability improvement over oxides formed by dry oxidation. [G. Minor, G. Xing, H. S. Joo, E. Sanchez, Y. Yokota, C. Chen, D. Lopes, and A. Balakrishna, Electrochem. Soc....

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Veröffentlicht in:Applied physics letters 2001-06, Vol.78 (24), p.3875-3877
Hauptverfasser: Al-Shareef, H. N., Karamcheti, A., Luo, T. Y., Bersuker, G., Brown, G. A., Murto, R. W., Jackson, M. D., Huff, H. R., Kraus, P., Lopes, D., Olsen, C., Miner, G.
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Sprache:eng
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DIELECTRIC MATERIALS
LEAKAGE CURRENT
MATERIALS SCIENCE
NITRIDATION
OXIDATION
OXIDES
RELIABILITY
STEAM
TRANSISTORS
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container_end_page 3877
container_issue 24
container_start_page 3875
container_title Applied physics letters
container_volume 78
creator Al-Shareef, H. N.
Karamcheti, A.
Luo, T. Y.
Bersuker, G.
Brown, G. A.
Murto, R. W.
Jackson, M. D.
Huff, H. R.
Kraus, P.
Lopes, D.
Olsen, C.
Miner, G.
description In situ steam generated (ISSG) oxides have recently attracted interest for use as gate dielectrics because of their demonstrated reliability improvement over oxides formed by dry oxidation. [G. Minor, G. Xing, H. S. Joo, E. Sanchez, Y. Yokota, C. Chen, D. Lopes, and A. Balakrishna, Electrochem. Soc. Symp. Proc. 99-10, 3 (1999); T. Y. Luo, H. N. Al-Shareef, G. A. Brown, M. Laughery, V. Watt, A. Karamcheti, M. D. Jackson, and H. R. Huff, Proc. SPIE 4181, 220 (2000).] We show in this letter that nitridation of ISSG oxide using a remote plasma decreases the gate leakage current of ISSG oxide by an order of magnitude without significantly degrading transistor performance. In particular, it is shown that the peak normalized transconductance of n-channel devices with an ISSG oxide gate dielectric decreases by only 4% and the normalized drive current by only 3% after remote plasma nitridation (RPN). In addition, it is shown that the reliability of the ISSG oxide exhibits only a small degradation after RPN. These observations suggest that the ISSG/RPN process holds promise for gate dielectric applications.
doi_str_mv 10.1063/1.1379363
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source AIP Journals Complete; AIP Digital Archive
subjects DIELECTRIC MATERIALS
LEAKAGE CURRENT
MATERIALS SCIENCE
NITRIDATION
OXIDATION
OXIDES
RELIABILITY
STEAM
TRANSISTORS
title Device performance of in situ steam generated gate dielectric nitrided by remote plasma nitridation
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