Observation of negative contact resistances in graphene field-effect transistors

Ryo Nouchi; Tatsuya Saito; Katsumi Tanigaki

doi:10.1063/1.4705367

Observation of negative contact resistances in graphene field-effect transistors

Ryo Nouchi, Tatsuya Saito, Katsumi Tanigaki

材料科学高等研究所

研究成果: Article › 査読

23 被引用数 (Scopus)

抄録

The gate-voltage (V _G) dependence of the contact resistance (R _C) in graphene field-effect transistors is characterized by the transmission line model. The R _C-V _G characteristics of Ag, Cu, and Au contacts display a dip around the charge neutrality point and become even negative with Ag contacts. The dip structure is well reproduced by a model calculation that considers a metal-contact-induced potential variation near the metal contact edges. The apparently negative R _C originates with the carrier doping from the metal contacts to the graphene channel and appears when the doping effect is more substantial than the actual contact resistance precisely at the contacts. The negative R _C can appear at the metal contacts to Dirac-cone systems such as graphene.

本文言語	English
論文番号	084314
ジャーナル	Journal of Applied Physics
巻	111
号	8
DOI	https://doi.org/10.1063/1.4705367
出版ステータス	Published - 2012 4月 15

ASJC Scopus subject areas

物理学および天文学（全般）

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10.1063/1.4705367

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title = "Observation of negative contact resistances in graphene field-effect transistors",

abstract = "The gate-voltage (V G) dependence of the contact resistance (R C) in graphene field-effect transistors is characterized by the transmission line model. The R C-V G characteristics of Ag, Cu, and Au contacts display a dip around the charge neutrality point and become even negative with Ag contacts. The dip structure is well reproduced by a model calculation that considers a metal-contact-induced potential variation near the metal contact edges. The apparently negative R C originates with the carrier doping from the metal contacts to the graphene channel and appears when the doping effect is more substantial than the actual contact resistance precisely at the contacts. The negative R C can appear at the metal contacts to Dirac-cone systems such as graphene.",

author = "Ryo Nouchi and Tatsuya Saito and Katsumi Tanigaki",

note = "Funding Information: The authors acknowledge M. Murakami of Kaneka Corporation and M. Shiraishi of Osaka University for providing the graphite crystal. This work was supported by grants (Kakenhi; Grant Nos. 20710071 and 19051001) and World Premier International Research Center Initiative (WPI) from the Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan.",

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AU - Saito, Tatsuya

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N1 - Funding Information: The authors acknowledge M. Murakami of Kaneka Corporation and M. Shiraishi of Osaka University for providing the graphite crystal. This work was supported by grants (Kakenhi; Grant Nos. 20710071 and 19051001) and World Premier International Research Center Initiative (WPI) from the Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan.

PY - 2012/4/15

Y1 - 2012/4/15

N2 - The gate-voltage (V G) dependence of the contact resistance (R C) in graphene field-effect transistors is characterized by the transmission line model. The R C-V G characteristics of Ag, Cu, and Au contacts display a dip around the charge neutrality point and become even negative with Ag contacts. The dip structure is well reproduced by a model calculation that considers a metal-contact-induced potential variation near the metal contact edges. The apparently negative R C originates with the carrier doping from the metal contacts to the graphene channel and appears when the doping effect is more substantial than the actual contact resistance precisely at the contacts. The negative R C can appear at the metal contacts to Dirac-cone systems such as graphene.

AB - The gate-voltage (V G) dependence of the contact resistance (R C) in graphene field-effect transistors is characterized by the transmission line model. The R C-V G characteristics of Ag, Cu, and Au contacts display a dip around the charge neutrality point and become even negative with Ag contacts. The dip structure is well reproduced by a model calculation that considers a metal-contact-induced potential variation near the metal contact edges. The apparently negative R C originates with the carrier doping from the metal contacts to the graphene channel and appears when the doping effect is more substantial than the actual contact resistance precisely at the contacts. The negative R C can appear at the metal contacts to Dirac-cone systems such as graphene.

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Observation of negative contact resistances in graphene field-effect transistors

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