Tuning effective metal gate work function by a novel gate dielectric HfLaO for nMOSFETs

X. F. Wang; Ming Fu Li; C. Ren; X. F. Yu; C. Shen; H. H. Ma; Albert Chin; C. X. Zhu; Jiang Ning; M. B. Yu; Dim Lee Kwong

doi:10.1142/9781848164079_0006

Tuning effective metal gate work function by a novel gate dielectric HfLaO for nMOSFETs

X. F. Wang, Ming Fu Li, C. Ren, X. F. Yu, C. Shen, H. H. Ma, Albert Chin, C. X. Zhu, Jiang Ning, M. B. Yu, Dim Lee Kwong

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Using a novel HfLaO gale dielectric for nMOSFETs with different La composition, we report for the first time that TaN (or HfN) effective metal gate work function can be tuned from Si mid-gap to the conduction band to fit the requirement of nMOSFETs. This is explained by the change of interface states and Fermi pinning level by adding La into HfO₂. The superior performances of the nMOSFETs compared with those using pure HfO₂gate dielectric are also reported, in terms of higher crystallization temperature and higher drive current Id without sacrifice of very low gate leakage current, i.e. 5-6 orders reduction compared with SIO₂at the same equivalent oxide thickness of ~1.2-1.8 nm.

Original language	English
Title of host publication	Selected Semiconductor Research
Publisher	Imperial College Press
Pages	366-368
Number of pages	3
ISBN (Electronic)	9781848164079
ISBN (Print)	9781848164062
DOIs	https://doi.org/10.1142/9781848164079_0006
State	Published - 1 Jan 2011

Keywords

HfLaO
High-k dielectric
MOSFET
Metal gate

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10.1142/9781848164079_0006

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title = "Tuning effective metal gate work function by a novel gate dielectric HfLaO for nMOSFETs",

abstract = "Using a novel HfLaO gale dielectric for nMOSFETs with different La composition, we report for the first time that TaN (or HfN) effective metal gate work function can be tuned from Si mid-gap to the conduction band to fit the requirement of nMOSFETs. This is explained by the change of interface states and Fermi pinning level by adding La into HfO2. The superior performances of the nMOSFETs compared with those using pure HfO2gate dielectric are also reported, in terms of higher crystallization temperature and higher drive current Id without sacrifice of very low gate leakage current, i.e. 5-6 orders reduction compared with SIO2at the same equivalent oxide thickness of ~1.2-1.8 nm.",

keywords = "HfLaO, High-k dielectric, MOSFET, Metal gate",

author = "Wang, {X. F.} and Li, {Ming Fu} and C. Ren and Yu, {X. F.} and C. Shen and Ma, {H. H.} and Albert Chin and Zhu, {C. X.} and Jiang Ning and Yu, {M. B.} and Kwong, {Dim Lee}",

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doi = "10.1142/9781848164079_0006",

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T1 - Tuning effective metal gate work function by a novel gate dielectric HfLaO for nMOSFETs

AU - Wang, X. F.

AU - Li, Ming Fu

AU - Ren, C.

AU - Yu, X. F.

AU - Shen, C.

AU - Ma, H. H.

AU - Chin, Albert

AU - Zhu, C. X.

AU - Ning, Jiang

AU - Yu, M. B.

AU - Kwong, Dim Lee

PY - 2011/1/1

Y1 - 2011/1/1

N2 - Using a novel HfLaO gale dielectric for nMOSFETs with different La composition, we report for the first time that TaN (or HfN) effective metal gate work function can be tuned from Si mid-gap to the conduction band to fit the requirement of nMOSFETs. This is explained by the change of interface states and Fermi pinning level by adding La into HfO2. The superior performances of the nMOSFETs compared with those using pure HfO2gate dielectric are also reported, in terms of higher crystallization temperature and higher drive current Id without sacrifice of very low gate leakage current, i.e. 5-6 orders reduction compared with SIO2at the same equivalent oxide thickness of ~1.2-1.8 nm.

AB - Using a novel HfLaO gale dielectric for nMOSFETs with different La composition, we report for the first time that TaN (or HfN) effective metal gate work function can be tuned from Si mid-gap to the conduction band to fit the requirement of nMOSFETs. This is explained by the change of interface states and Fermi pinning level by adding La into HfO2. The superior performances of the nMOSFETs compared with those using pure HfO2gate dielectric are also reported, in terms of higher crystallization temperature and higher drive current Id without sacrifice of very low gate leakage current, i.e. 5-6 orders reduction compared with SIO2at the same equivalent oxide thickness of ~1.2-1.8 nm.

KW - HfLaO

KW - High-k dielectric

KW - MOSFET

KW - Metal gate

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DO - 10.1142/9781848164079_0006

M3 - Chapter

AN - SCOPUS:84967387172

SN - 9781848164062

SP - 366

EP - 368

BT - Selected Semiconductor Research

PB - Imperial College Press

ER -

Tuning effective metal gate work function by a novel gate dielectric HfLaO for nMOSFETs

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