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Optical Instruments, Volume. 44, Issue 6, 8(2022)

Fabrication of resistive memory devices based on graphene oxide

Min CHEN1...2 and Qiming ZHANG12,* |Show fewer author(s)
Author Affiliations
  • 1Institute of Photonic Chips, University of Shanghai for Science and Technology, Shanghai 200093, China
  • 2School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China
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    [7] KIM T W, YANG Y, LI F S, et al. Electrical memory devices based on inorganic/organic nanocomposites[J]. NPG Asia Materials, 4, e18(2012).

    [8] ROMERO F J, TORAL-LOPEZ A, OHATA A, et al. Laser-fabricated reduced graphene oxide memristors[J]. Nanomaterials, 9, 897(2019).

    [9] LI L. Graphene oxide: graphene quantum dot nanocomposite for better memristic switching behaviors[J]. Nanomaterials, 10, 1448(2020).

    [10] WAN Z F, STREED E W, LOBINO M, et al. Laser-reduced graphene: synthesis, properties, and applications[J]. Advanced Materials Technologies, 3, 1700315(2018).

    [11] WAN Z F, NGUYEN N T, GAO Y S, et al. Laser induced graphene for biosensors[J]. Sustainable Materials and Technologies, 25, e00205(2020).

    [12] WAN Z F, WANG S J, HAYLOCK B, et al. Tuning the sub-processes in laser reduction of graphene oxide by adjusting the power and scanning speed of laser[J]. Carbon, 141, 83-91(2019).

    [13] ZHANG Y L, GUO L, XIA H, et al. Photoreduction of graphene oxides: methods, properties, and applications[J]. Advanced Optical Materials, 2, 10-28(2014).

    [14] CHEN H Y, HAN D D, TIAN Y, et al. Mask-free and programmable patterning of graphene by ultrafast laser direct writing[J]. Chemical Physics, 430, 13-17(2014).

    [15] ZHANG Y L, GUO L, WEI S, et al. Direct imprinting of microcircuits on graphene oxides film by femtosecond laser reduction[J]. Nano Today, 5, 15-20(2010).

    [16] WAN Z F, CHEN X, GU M. Laser scribed graphene for supercapacitors[J]. Opto-Electronic Advances, 4, 200079(2021).

    [17] WAN Z F, WANG S J, HAYLOCK B, et al. Localized surface plasmon enhanced laser reduction of graphene oxide for wearable strain sensor[J]. Advanced Materials Technologies, 6, 2001191(2021).

    [19] WAN Z F, UMER M, LOBINO M, et al. Laser induced self-N-doped porous graphene as an electrochemical biosensor for femtomolar miRNA detection[J]. Carbon, 163, 385-394(2020).

    [20] HU B L, QUHE R G, CHEN C, et al. Electrically controlled electron transfer and resistance switching in reduced graphene oxide noncovalently functionalized with thionine[J]. Journal of Materials Chemistry, 22, 16422-16430(2012).

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    Min CHEN, Qiming ZHANG. Fabrication of resistive memory devices based on graphene oxide[J]. Optical Instruments, 2022, 44(6): 8

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    Paper Information

    Category: APPLICATION TECHNOLOGY

    Received: Mar. 3, 2022

    Accepted: Mar. 31, 2022

    Published Online: Jan. 11, 2023

    The Author Email: ZHANG Qiming (qimingzhang@usst.edu.cn)

    DOI:10.3969/j.issn.1005-5630.2022.006.002

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology