Robust bi-stable memory operation in single-layer graphene ferroelectric memory

Song, Emil B.; Lian, Bob; Min Kim, Sung; Lee, Sejoon; Chung, Tien-Kan; Wang, Minsheng; Zeng, Caifu; Xu, Guangyu; Wong, Kin; Zhou, Yi; Rasool, Haider I.; Seo, David H.; Chung, Hyun-Jong; Heo, Jinseong; Seo, Sunae; Wang, Kang L.

doi:10.1063/1.3619816

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Research Article| July 29 2011

Robust bi-stable memory operation in single-layer graphene ferroelectric memory

Emil B. Song;

Emil B. Song ^a)

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Bob Lian;

Bob Lian

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Sung Min Kim;

Sung Min Kim

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Sejoon Lee;

Sejoon Lee

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

2Quantum-functional Semiconductor Research Center,

Dongguk University-Seoul

, Seoul 100-715,

Korea

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Tien-Kan Chung;

Tien-Kan Chung

3Department of Mechanical Engineering,

National Chiao Tung University

, Taiwan 300

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Minsheng Wang;

Minsheng Wang

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Caifu Zeng;

Caifu Zeng

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Guangyu Xu;

Guangyu Xu

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Kin Wong;

Kin Wong

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Yi Zhou;

Yi Zhou

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Haider I. Rasool;

Haider I. Rasool

4Department of Chemistry and Biochemistry,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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David H. Seo;

David H. Seo

5

Samsung Advanced Institute of Technology

, Youngin, Gyeonggi 446-712,

Korea

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Hyun-Jong Chung;

Hyun-Jong Chung

5

Samsung Advanced Institute of Technology

, Youngin, Gyeonggi 446-712,

Korea

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Jinseong Heo;

Jinseong Heo

5

Samsung Advanced Institute of Technology

, Youngin, Gyeonggi 446-712,

Korea

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Sunae Seo;

Sunae Seo

6Department of Physics,

Sejong University

, Seoul 143-747,

Korea

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Kang L. Wang

Kang L. Wang ^a)

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

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Author & Article Information

Emil B. Song ^1,a)

,

Bob Lian ¹

,

Sung Min Kim ¹

,

Sejoon Lee ^1,2

,

Tien-Kan Chung ³

,

Minsheng Wang ¹

,

Caifu Zeng ¹

,

Guangyu Xu ¹

,

Kin Wong ¹

,

Yi Zhou ¹

,

Haider I. Rasool ⁴

,

David H. Seo ⁵

,

Hyun-Jong Chung ⁵

,

Jinseong Heo ⁵

,

Sunae Seo ⁶

,

Kang L. Wang ^1,a)

1Department of Electrical Engineering,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

2Quantum-functional Semiconductor Research Center,

Dongguk University-Seoul

, Seoul 100-715,

Korea

3Department of Mechanical Engineering,

National Chiao Tung University

, Taiwan 300

4Department of Chemistry and Biochemistry,

University of California at Los Angeles

, Los Angeles, California 90095,

USA

5

Samsung Advanced Institute of Technology

, Youngin, Gyeonggi 446-712,

Korea

6Department of Physics,

Sejong University

, Seoul 143-747,

Korea

^a)

Author to whom correspondence should be addressed. Electronic addresses: [email protected] and [email protected]

Appl. Phys. Lett. 99, 042109 (2011)

https://doi.org/10.1063/1.3619816

With the motivation of realizing an all graphene-based circuit for low power, we present a reliable nonvolatile graphene memory device, single-layer graphene (SLG) ferroelectric field-effect transistor (FFET). We demonstrate that exfoliated single-layer graphene can be optically visible on a ferroelectric lead-zirconate-titanate (PZT) substrate and observe a large memory window that is nearly equivalent to the hysteresis of the PZT at low operating voltages in a graphene FFET. In comparison to exfoliated graphene, FFETs fabricated with chemical vapor deposited (CVD) graphene exhibit enhanced stability through a bi-stable current state operation with long retention time. In addition, we suggest that the trapping/de-trapping of charge carriers in the interface states is responsible for the anti-hysteresis behavior in graphene FFET on PZT.