Enhancing the performance of germanium channel nMOSFET using phosphorus dopant segregation

Che Wei Chen; Ju Yuan Tzeng; Cheng Ting Chung; Hung Pin Chien; Chao-Hsin Chien; Guang Li Luo; Pei Yu Wang; Bing-Yue Tsui

doi:10.1109/LED.2013.2291774

Enhancing the performance of germanium channel nMOSFET using phosphorus dopant segregation

Che Wei Chen, Ju Yuan Tzeng, Cheng Ting Chung, Hung Pin Chien, Chao-Hsin Chien, Guang Li Luo, Pei Yu Wang, Bing-Yue Tsui

Institute of Electronics

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

In this letter, we present a high performance Ge n-channel metal-oxide-semiconductor field-effect transistor (MOSFET) with a NiGe Schottky junction source/drain fabricated using phosphorus dopant segregation. Phosphorus atoms were implanted into NiGe and then driven toward the NiGe/p-Ge interface to depin the Fermi level and form a Schottky junction. A high effective barrier height (φBp) of 0.57 eV, resulting in a high junction current ratio of <104 at the applied voltage |V_a| = ±1 V. The nMOSFET exhibited a high I_ON/I_OFF ratio of ∼8 × 10 ³ (ID), ∼10⁵ (IS), and a subthreshold swing of 138 mV/decade. The nMOSFET developed in this letter exhibited greater transconductance and a drain leakage current that is more than two orders of magnitude lower compared with nMOSFETs with the conventional n⁺/p junction.

Original language	English
Article number	6679233
Pages (from-to)	6-8
Number of pages	3
Journal	Ieee Electron Device Letters
Volume	35
Issue number	1
DOIs	https://doi.org/10.1109/LED.2013.2291774
State	Published - Jan 2014

Keywords

NiGe
Shottky barrier height
dopant segregation
nMOSFET

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title = "Enhancing the performance of germanium channel nMOSFET using phosphorus dopant segregation",

abstract = "In this letter, we present a high performance Ge n-channel metal-oxide-semiconductor field-effect transistor (MOSFET) with a NiGe Schottky junction source/drain fabricated using phosphorus dopant segregation. Phosphorus atoms were implanted into NiGe and then driven toward the NiGe/p-Ge interface to depin the Fermi level and form a Schottky junction. A high effective barrier height (φBp) of 0.57 eV, resulting in a high junction current ratio of <104 at the applied voltage |Va| = ±1 V. The nMOSFET exhibited a high ION/IOFF ratio of ∼8 × 10 3 (ID), ∼105 (IS), and a subthreshold swing of 138 mV/decade. The nMOSFET developed in this letter exhibited greater transconductance and a drain leakage current that is more than two orders of magnitude lower compared with nMOSFETs with the conventional n+/p junction.",

keywords = "NiGe, Shottky barrier height, dopant segregation, nMOSFET",

author = "Chen, {Che Wei} and Tzeng, {Ju Yuan} and Chung, {Cheng Ting} and Chien, {Hung Pin} and Chao-Hsin Chien and Luo, {Guang Li} and Wang, {Pei Yu} and Bing-Yue Tsui",

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AU - Chen, Che Wei

AU - Tzeng, Ju Yuan

AU - Chung, Cheng Ting

AU - Chien, Hung Pin

AU - Chien, Chao-Hsin

AU - Luo, Guang Li

AU - Wang, Pei Yu

AU - Tsui, Bing-Yue

PY - 2014/1

Y1 - 2014/1

N2 - In this letter, we present a high performance Ge n-channel metal-oxide-semiconductor field-effect transistor (MOSFET) with a NiGe Schottky junction source/drain fabricated using phosphorus dopant segregation. Phosphorus atoms were implanted into NiGe and then driven toward the NiGe/p-Ge interface to depin the Fermi level and form a Schottky junction. A high effective barrier height (φBp) of 0.57 eV, resulting in a high junction current ratio of <104 at the applied voltage |Va| = ±1 V. The nMOSFET exhibited a high ION/IOFF ratio of ∼8 × 10 3 (ID), ∼105 (IS), and a subthreshold swing of 138 mV/decade. The nMOSFET developed in this letter exhibited greater transconductance and a drain leakage current that is more than two orders of magnitude lower compared with nMOSFETs with the conventional n+/p junction.

AB - In this letter, we present a high performance Ge n-channel metal-oxide-semiconductor field-effect transistor (MOSFET) with a NiGe Schottky junction source/drain fabricated using phosphorus dopant segregation. Phosphorus atoms were implanted into NiGe and then driven toward the NiGe/p-Ge interface to depin the Fermi level and form a Schottky junction. A high effective barrier height (φBp) of 0.57 eV, resulting in a high junction current ratio of <104 at the applied voltage |Va| = ±1 V. The nMOSFET exhibited a high ION/IOFF ratio of ∼8 × 10 3 (ID), ∼105 (IS), and a subthreshold swing of 138 mV/decade. The nMOSFET developed in this letter exhibited greater transconductance and a drain leakage current that is more than two orders of magnitude lower compared with nMOSFETs with the conventional n+/p junction.

KW - NiGe

KW - Shottky barrier height

KW - dopant segregation

KW - nMOSFET

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DO - 10.1109/LED.2013.2291774

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JO - Ieee Electron Device Letters

JF - Ieee Electron Device Letters

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ER -

Enhancing the performance of germanium channel nMOSFET using phosphorus dopant segregation

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