Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors

H. B. Yao; C. C. Tan; S. L. Liew; C. T. Chua; C. K. Chua; R. Li; R. T.P. Lee; S. J. Lee; D. Z. Chi

doi:10.1109/iwjt.2006.220884

Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors

H. B. Yao, C. C. Tan, S. L. Liew, C. T. Chua, C. K. Chua, R. Li, R. T.P. Lee, S. J. Lee, D. Z. Chi

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

12 Scopus citations

Abstract

The lack of a stable native germanium oxide has been the main obstacle for the use of Ge in complementary metal oxide-semiconductor CMOS devices. However, recent development of next generation deposited high-k gate dielectrics for Si also allows for the fabrication of highperformance Ge-based metal-oxide- semiconductor field effect transistors (MOSFETs). For the formation of electrical contacts in Ge-based MOSFETs, transition metal germanides, such as Ni and Pt germanides, appear to be suitable candidates for this application due to their low resistivity, low formation temperatures (as low as 250 °C), and ability to form in self-alignment. In this work, we have characterized the material and electrical properties of nickel and platinum germanide films as Schottky source/drain contacts for Ge- MOSFETs. This talk will present and discuss experimental results on Ni-and Pt-germanide phase formation, interfacial/surface morphology and Schottky barrier heights in Ni- & Pt-germanide contacts formed by the solid state reaction of Ni/Ge(001)and Pt/Ge(001).

Original language	English
Title of host publication	Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06
Publisher	IEEE Computer Society
Pages	164-169
Number of pages	6
ISBN (Print)	1424400473, 9781424400478
DOIs	https://doi.org/10.1109/iwjt.2006.220884
State	Published - 2006
Externally published	Yes
Event	Extended Abstracts of the 6th International Workshop on Junction Technology, IWJT '06 - Shanghai, China Duration: 15 May 2006 → 16 May 2006

Publication series

Name	Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06

Conference

Conference	Extended Abstracts of the 6th International Workshop on Junction Technology, IWJT '06
Country/Territory	China
City	Shanghai
Period	15/05/06 → 16/05/06

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10.1109/iwjt.2006.220884

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Yao, H. B., Tan, C. C., Liew, S. L., Chua, C. T., Chua, C. K., Li, R., Lee, R. T. P., Lee, S. J., & Chi, D. Z. (2006). Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors. In Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06 (pp. 164-169). Article 1669471 (Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06). IEEE Computer Society. https://doi.org/10.1109/iwjt.2006.220884

Yao, H. B. ; Tan, C. C. ; Liew, S. L. et al. / Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors. Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06. IEEE Computer Society, 2006. pp. 164-169 (Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06).

@inproceedings{541e6f6a33bd4b509b27e0d2c742c333,

title = "Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors",

abstract = "The lack of a stable native germanium oxide has been the main obstacle for the use of Ge in complementary metal oxide-semiconductor CMOS devices. However, recent development of next generation deposited high-k gate dielectrics for Si also allows for the fabrication of highperformance Ge-based metal-oxide- semiconductor field effect transistors (MOSFETs). For the formation of electrical contacts in Ge-based MOSFETs, transition metal germanides, such as Ni and Pt germanides, appear to be suitable candidates for this application due to their low resistivity, low formation temperatures (as low as 250 °C), and ability to form in self-alignment. In this work, we have characterized the material and electrical properties of nickel and platinum germanide films as Schottky source/drain contacts for Ge- MOSFETs. This talk will present and discuss experimental results on Ni-and Pt-germanide phase formation, interfacial/surface morphology and Schottky barrier heights in Ni- \& Pt-germanide contacts formed by the solid state reaction of Ni/Ge(001)and Pt/Ge(001).",

author = "Yao, \{H. B.\} and Tan, \{C. C.\} and Liew, \{S. L.\} and Chua, \{C. T.\} and Chua, \{C. K.\} and R. Li and Lee, \{R. T.P.\} and Lee, \{S. J.\} and Chi, \{D. Z.\}",

year = "2006",

doi = "10.1109/iwjt.2006.220884",

language = "English",

isbn = "1424400473",

series = "Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06",

publisher = "IEEE Computer Society",

pages = "164--169",

booktitle = "Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06",

note = "Extended Abstracts of the 6th International Workshop on Junction Technology, IWJT '06 ; Conference date: 15-05-2006 Through 16-05-2006",

}

Yao, HB, Tan, CC, Liew, SL, Chua, CT, Chua, CK, Li, R, Lee, RTP, Lee, SJ & Chi, DZ 2006, Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors. in Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06., 1669471, Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06, IEEE Computer Society, pp. 164-169, Extended Abstracts of the 6th International Workshop on Junction Technology, IWJT '06, Shanghai, China, 15/05/06. https://doi.org/10.1109/iwjt.2006.220884

Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors. / Yao, H. B.; Tan, C. C.; Liew, S. L. et al.
Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06. IEEE Computer Society, 2006. p. 164-169 1669471 (Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06).

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

TY - GEN

T1 - Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors

AU - Yao, H. B.

AU - Tan, C. C.

AU - Liew, S. L.

AU - Chua, C. T.

AU - Chua, C. K.

AU - Li, R.

AU - Lee, R. T.P.

AU - Lee, S. J.

AU - Chi, D. Z.

PY - 2006

Y1 - 2006

N2 - The lack of a stable native germanium oxide has been the main obstacle for the use of Ge in complementary metal oxide-semiconductor CMOS devices. However, recent development of next generation deposited high-k gate dielectrics for Si also allows for the fabrication of highperformance Ge-based metal-oxide- semiconductor field effect transistors (MOSFETs). For the formation of electrical contacts in Ge-based MOSFETs, transition metal germanides, such as Ni and Pt germanides, appear to be suitable candidates for this application due to their low resistivity, low formation temperatures (as low as 250 °C), and ability to form in self-alignment. In this work, we have characterized the material and electrical properties of nickel and platinum germanide films as Schottky source/drain contacts for Ge- MOSFETs. This talk will present and discuss experimental results on Ni-and Pt-germanide phase formation, interfacial/surface morphology and Schottky barrier heights in Ni- & Pt-germanide contacts formed by the solid state reaction of Ni/Ge(001)and Pt/Ge(001).

AB - The lack of a stable native germanium oxide has been the main obstacle for the use of Ge in complementary metal oxide-semiconductor CMOS devices. However, recent development of next generation deposited high-k gate dielectrics for Si also allows for the fabrication of highperformance Ge-based metal-oxide- semiconductor field effect transistors (MOSFETs). For the formation of electrical contacts in Ge-based MOSFETs, transition metal germanides, such as Ni and Pt germanides, appear to be suitable candidates for this application due to their low resistivity, low formation temperatures (as low as 250 °C), and ability to form in self-alignment. In this work, we have characterized the material and electrical properties of nickel and platinum germanide films as Schottky source/drain contacts for Ge- MOSFETs. This talk will present and discuss experimental results on Ni-and Pt-germanide phase formation, interfacial/surface morphology and Schottky barrier heights in Ni- & Pt-germanide contacts formed by the solid state reaction of Ni/Ge(001)and Pt/Ge(001).

UR - https://www.scopus.com/pages/publications/34250190621

U2 - 10.1109/iwjt.2006.220884

DO - 10.1109/iwjt.2006.220884

M3 - Conference contribution

AN - SCOPUS:34250190621

SN - 1424400473

SN - 9781424400478

T3 - Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06

SP - 164

EP - 169

BT - Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06

PB - IEEE Computer Society

T2 - Extended Abstracts of the 6th International Workshop on Junction Technology, IWJT '06

Y2 - 15 May 2006 through 16 May 2006

ER -

Yao HB, Tan CC, Liew SL, Chua CT, Chua CK, Li R et al. Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors. In Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06. IEEE Computer Society. 2006. p. 164-169. 1669471. (Extended Abstracts of the Sixth International Workshop on Junction Technology, IWJT '06). doi: 10.1109/iwjt.2006.220884

Material and electrical characterization of Ni- And Pt-germanides for p-channel germanium Schottky source/drain transistors

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