Fermi-level pinning at metal/high-k interface influenced by electron state density of metal gate

Z. C. Yang; A. P. Huang; X. H. Zheng; Z. S. Xiao; X. Y. Liu; X. W. Zhang; Paul K. Chu; W. W. Wang

doi:10.1109/LED.2010.2062171

Fermi-level pinning at metal/high-k interface influenced by electron state density of metal gate

Z. C. Yang
, A. P. Huang
, X. H. Zheng
, Z. S. Xiao
, X. Y. Liu
, X. W. Zhang
, Paul K. Chu
, W. W. Wang

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

14 Citations (Scopus)

Abstract

The Fermi-level pinning (FLP) at the metal/high-k interface and its dependence on the electron state density of the metal gate are investigated. It is found that the FLP is largely determined by the distortion of the vacuum level of the metal which is quantitatively ruled by the electron state density of the metal. The physical origin of the vacuum level distortion of the metal is attributed to an image charge of the interface charge in the metal. Such results indicate that the effective work function of the metal/high-k stack is also governed by the electron state density of the metal. © 2006 IEEE.

Original language	English
Article number	5560726
Pages (from-to)	1101-1103
Journal	IEEE Electron Device Letters
Volume	31
Issue number	10
DOIs	https://doi.org/10.1109/LED.2010.2062171
Publication status	Published - Oct 2010

Research Keywords

Electron state density
Fermi-level pinning (FLP)
MIS structures
work function (WF)

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10.1109/LED.2010.2062171

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title = "Fermi-level pinning at metal/high-k interface influenced by electron state density of metal gate",

abstract = "The Fermi-level pinning (FLP) at the metal/high-k interface and its dependence on the electron state density of the metal gate are investigated. It is found that the FLP is largely determined by the distortion of the vacuum level of the metal which is quantitatively ruled by the electron state density of the metal. The physical origin of the vacuum level distortion of the metal is attributed to an image charge of the interface charge in the metal. Such results indicate that the effective work function of the metal/high-k stack is also governed by the electron state density of the metal. {\textcopyright} 2006 IEEE.",

keywords = "Electron state density, Fermi-level pinning (FLP), MIS structures, work function (WF)",

author = "Yang, \{Z. C.\} and Huang, \{A. P.\} and Zheng, \{X. H.\} and Xiao, \{Z. S.\} and Liu, \{X. Y.\} and Zhang, \{X. W.\} and Chu, \{Paul K.\} and Wang, \{W. W.\}",

year = "2010",

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doi = "10.1109/LED.2010.2062171",

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T1 - Fermi-level pinning at metal/high-k interface influenced by electron state density of metal gate

AU - Yang, Z. C.

AU - Huang, A. P.

AU - Zheng, X. H.

AU - Xiao, Z. S.

AU - Liu, X. Y.

AU - Zhang, X. W.

AU - Chu, Paul K.

AU - Wang, W. W.

PY - 2010/10

Y1 - 2010/10

N2 - The Fermi-level pinning (FLP) at the metal/high-k interface and its dependence on the electron state density of the metal gate are investigated. It is found that the FLP is largely determined by the distortion of the vacuum level of the metal which is quantitatively ruled by the electron state density of the metal. The physical origin of the vacuum level distortion of the metal is attributed to an image charge of the interface charge in the metal. Such results indicate that the effective work function of the metal/high-k stack is also governed by the electron state density of the metal. © 2006 IEEE.

AB - The Fermi-level pinning (FLP) at the metal/high-k interface and its dependence on the electron state density of the metal gate are investigated. It is found that the FLP is largely determined by the distortion of the vacuum level of the metal which is quantitatively ruled by the electron state density of the metal. The physical origin of the vacuum level distortion of the metal is attributed to an image charge of the interface charge in the metal. Such results indicate that the effective work function of the metal/high-k stack is also governed by the electron state density of the metal. © 2006 IEEE.

KW - Electron state density

KW - Fermi-level pinning (FLP)

KW - MIS structures

KW - work function (WF)

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U2 - 10.1109/LED.2010.2062171

DO - 10.1109/LED.2010.2062171

M3 - RGC 21 - Publication in refereed journal

SN - 0741-3106

VL - 31

SP - 1101

EP - 1103

JO - IEEE Electron Device Letters

JF - IEEE Electron Device Letters

IS - 10

M1 - 5560726

ER -

Fermi-level pinning at metal/high-k interface influenced by electron state density of metal gate

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