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A First Evaluation of Thick Oxide 3C-SiC MOS Capacitors Reliability

Fan Li, Phil Mawby, Qiu Song, Amador Perez-Tomas, Vishal Shah, Yogesh Sharma, Dean Hamilton, Craig Fisher, Peter Gammon, Mike Jennings Orcid Logo

IEEE Transactions on Electron Devices, Volume: 67, Issue: 1, Pages: 237 - 242

Swansea University Author: Mike Jennings Orcid Logo

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DOI (Published version): 10.1109/ted.2019.2954911

Abstract

Despite the recent advances in 3C-SiC technology, there is a lack of statistical analysis on the reliability of SiO 2 layers on 3C-SiC, which is crucial in power MOS device developments. This article presents a comprehensive study of the medium- and long-term time-dependent dielectric breakdowns (TD...

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Published in: IEEE Transactions on Electron Devices
ISSN: 0018-9383 1557-9646
Published: Institute of Electrical and Electronics Engineers (IEEE) 2020
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URI: https://cronfa.swan.ac.uk/Record/cronfa53335
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Abstract: Despite the recent advances in 3C-SiC technology, there is a lack of statistical analysis on the reliability of SiO 2 layers on 3C-SiC, which is crucial in power MOS device developments. This article presents a comprehensive study of the medium- and long-term time-dependent dielectric breakdowns (TDDBs) of 65-nm-thick SiO 2 layers thermally grown on a state-of-the-art 3C-SiC/Si wafer. Fowler–Nordheim (F-N) tunneling is observed above 7 MV/cm and an effective barrier height of 3.7 eV is obtained, which is the highest known for native SiO 2 layers grown on the semiconductor substrate. The observed dependence of the oxide reliability on the gate active area suggests that the oxide quality has not reached the intrinsic level. Three failure mechanisms were identified and confirmed by both medium- and long-term results. Although two of them are likely due to extrinsic defects from material quality and fabrication steps, the one dominating the high field (>8.5 MV/cm) should be attributed to the electron impact ionization within SiO 2 . At room temperature, the field acceleration factor is found to be $\approx 0.906$ dec/(MV/cm) for high fields, and the projected lifetime exceeds 10 years at 4.5 MV/cm.
Keywords: 3C-SiC , failure mechanism , MOS capacitor , reliability , time-dependent dielectric breakdown (TDDB)
College: Professional Services
Issue: 1
Start Page: 237
End Page: 242

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