• Title/Summary/Keyword: re-nitridation

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The Effect of Re-nitridation on Plasma-Enhanced Chemical-Vapor Deposited $SiO_2/Thermally-Nitrided\;SiO_2$ Stacks on N-type 4H SiC

  • Cheong, Kuan Yew;Bahng, Wook;Kim, Nam-Kyun;Na, Hoon-Ju
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2004.07a
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    • pp.48-51
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    • 2004
  • In this paper the importance of re-nitridation on a plasma-enhanced chemical-vapor deposited(PECVD) $SiO_2$ stacked on a thermally grown thin-nitrided $SiO_2$ on n-type 4H SiC have been investigated. Without the final re-nitridation process, the leakage current of metaloxidesemiconductor(MOS) was extremely large. It is believed that water and carbon, contamination from the low-thermal budget PECVD process, are the main factors that destroyed the high quality thin-buffer nitrided oxide. After re-nitridation annealing, the quality of the stacked gate oxide was improved. The reasons of this improvement are presented.

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Time Dependence of Charge Generation and Breakdown of Re-oxidized Nitrided Oxide (재산화 질화 산화막의 전하 생성과 항복에 대한 시간 의존성)

  • 이정석;이용재
    • Journal of the Korea Institute of Information and Communication Engineering
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    • v.2 no.3
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    • pp.431-437
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    • 1998
  • In this paper, we have investigated the electrical properties of ultra-thin nitrided oxide(NO) and re-oxidized nitrided oxide(ONO) films that are considered to be promising candidates for replacing conventional silicon dioxide film in ULSI level integration. Especially, we have studied a variation of I-V characteristics, gate voltage shift, and time-dependent dielectric breakdown(TDDB) of thin layer NO and ONO film depending on nitridation and reoxidation time, respectively, and measured a variation of leakage current and charge-to-breakdown(Q$\_bd$) of optimized NO and ONO film depending on ambient temperature, and then compared with the properties of conventional SIO$\_2$. From the results, we find that these NO and ONO thin films are strongly influenced by process time and the optimized ONO film shows superior dielectric characteristics, and (Q$\_bd$) performance over the NO film and SIO$\_2$, while maintaining a similar electric field dependence compared with NO layer.

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