Heat stress exposing performance of deep-nano HK/MG nMOSFETs using DPN or PDA treatment

Shea Jue Wang; Mu Chun Wang; Shuang Yuan Chen; Wen How Lan; Bor Wen Yang; L. S. Huang; Chuan Hsi Liu

doi:10.1016/j.microrel.2015.05.016

Heat stress exposing performance of deep-nano HK/MG nMOSFETs using DPN or PDA treatment

Shea Jue Wang, Mu Chun Wang^*, Shuang Yuan Chen, Wen How Lan, Bor Wen Yang, L. S. Huang, Chuan Hsi Liu

^*此作品的通信作者

機電工程學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

6 引文斯高帕斯（Scopus）

摘要

Decoupled plasma nitridation (DPN) or post-deposition annealing (PDA) process after high-k (HK) deposition to repair the bulk traps or the oxygen vacancy in gate dielectric is an impressive choice to raise up the device performance. Before heat stress, the electrical performance in drive current, channel mobility and subthreshold swing with both treatments was approximate, except the higher annealing atmosphere causing the thicker interfacial layer and reducing the overall related dielectric constant. After temperature stress, the electrical performance for all of the tested devices was slightly deteriorated. The degradation degree for electrical performance with PDA treatment group was the worst case due to NH₃ atmosphere forming Si-H bond on the channel surface, which was broken after stress and produced more interface state reflected with the increase of subthreshold swing.

原文	英語
頁（從 - 到）	2203-2207
頁數	5
期刊	Microelectronics Reliability
卷	55
發行號	11
DOIs	https://doi.org/10.1016/j.microrel.2015.05.016
出版狀態	已發佈 - 2015

ASJC Scopus subject areas

電子、光磁材料
原子與分子物理與光學
安全、風險、可靠性和品質
凝聚態物理學
表面、塗料和薄膜
電氣與電子工程

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10.1016/j.microrel.2015.05.016

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引用此

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title = "Heat stress exposing performance of deep-nano HK/MG nMOSFETs using DPN or PDA treatment",

abstract = "Decoupled plasma nitridation (DPN) or post-deposition annealing (PDA) process after high-k (HK) deposition to repair the bulk traps or the oxygen vacancy in gate dielectric is an impressive choice to raise up the device performance. Before heat stress, the electrical performance in drive current, channel mobility and subthreshold swing with both treatments was approximate, except the higher annealing atmosphere causing the thicker interfacial layer and reducing the overall related dielectric constant. After temperature stress, the electrical performance for all of the tested devices was slightly deteriorated. The degradation degree for electrical performance with PDA treatment group was the worst case due to NH3 atmosphere forming Si-H bond on the channel surface, which was broken after stress and produced more interface state reflected with the increase of subthreshold swing.",

keywords = "DPN, Drive current, High-k dielectric, MOSFET, PDA, Temperature stress",

author = "Wang, {Shea Jue} and Wang, {Mu Chun} and Chen, {Shuang Yuan} and Lan, {Wen How} and Yang, {Bor Wen} and Huang, {L. S.} and Liu, {Chuan Hsi}",

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T1 - Heat stress exposing performance of deep-nano HK/MG nMOSFETs using DPN or PDA treatment

AU - Wang, Shea Jue

AU - Wang, Mu Chun

AU - Chen, Shuang Yuan

AU - Lan, Wen How

AU - Yang, Bor Wen

AU - Huang, L. S.

AU - Liu, Chuan Hsi

PY - 2015

Y1 - 2015

N2 - Decoupled plasma nitridation (DPN) or post-deposition annealing (PDA) process after high-k (HK) deposition to repair the bulk traps or the oxygen vacancy in gate dielectric is an impressive choice to raise up the device performance. Before heat stress, the electrical performance in drive current, channel mobility and subthreshold swing with both treatments was approximate, except the higher annealing atmosphere causing the thicker interfacial layer and reducing the overall related dielectric constant. After temperature stress, the electrical performance for all of the tested devices was slightly deteriorated. The degradation degree for electrical performance with PDA treatment group was the worst case due to NH3 atmosphere forming Si-H bond on the channel surface, which was broken after stress and produced more interface state reflected with the increase of subthreshold swing.

AB - Decoupled plasma nitridation (DPN) or post-deposition annealing (PDA) process after high-k (HK) deposition to repair the bulk traps or the oxygen vacancy in gate dielectric is an impressive choice to raise up the device performance. Before heat stress, the electrical performance in drive current, channel mobility and subthreshold swing with both treatments was approximate, except the higher annealing atmosphere causing the thicker interfacial layer and reducing the overall related dielectric constant. After temperature stress, the electrical performance for all of the tested devices was slightly deteriorated. The degradation degree for electrical performance with PDA treatment group was the worst case due to NH3 atmosphere forming Si-H bond on the channel surface, which was broken after stress and produced more interface state reflected with the increase of subthreshold swing.

KW - DPN

KW - Drive current

KW - High-k dielectric

KW - MOSFET

KW - PDA

KW - Temperature stress

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Heat stress exposing performance of deep-nano HK/MG nMOSFETs using DPN or PDA treatment

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