Self-Induced Gate Dielectric for Graphene Field-Effect Transistor

被引:7
|
作者
Thiyagarajan, Kaliannan [1 ]
Saravanakumar, Balasubramaniam [1 ]
Mohan, Rajneesh [1 ]
Kim, Sang-Jae [1 ]
机构
[1] Jeju Natl Univ, Dept Mechatron Engn, Nanomat & Syst Lab, Cheju 690756, South Korea
来源
ACS APPLIED MATERIALS & INTERFACES | 2013年 / 5卷 / 14期
基金
新加坡国家研究基金会;
关键词
graphene; field effect transistors; ZnO microwire; self-induced; surface oxygen; ELECTRON-TRANSPORT; GAS; PHOTOLUMINESCENCE;
D O I
10.1021/am401219x
中图分类号
TB3 [工程材料学];
学科分类号
0805 ; 080502 ;
摘要
We report the electronic characteristics of an avant-garde graphene-field-effect transistor (G-FETs) based on ZnO microwire as topgate electrode with self-induced dielectric layer. Surface-adsorbed oxygen is wrapped up the ZnO microwire to provide high electrostatic gate-channel capacitance. This nonconventional device structure yields an on-current of 175 mu A, on/off current ratio of 55, and a device mobility exceeding 1630 cm(2)/(V s) for holes and 1240 cm(2)/(V s) for electrons at room temperature. Self-induced gate dielectric process prevents G-FETs from impurity doping and defect formation in graphene lattice and facilitates the lithographic process. Performance degradation of G-FETs can be overcome by this avantgarde device structure.
引用
收藏
页码:6443 / 6446
页数:4
相关论文
共 50 条
  • [31] A flexible magnetoelectric field-effect transistor with magnetically responsive nanohybrid gate dielectric layer
    Nguyen Minh Triet
    Tran Quang Trung
    Nguyen Thi Dieu Hien
    Siddiqui, Saqib
    Kim, Do-Il
    Lee, Jai Chan
    Lee, Nae-Eung
    [J]. NANO RESEARCH, 2015, 8 (10) : 3421 - 3429
  • [32] Self-aligned graphene field-effect transistors on SiC(0001) substrates with self-oxidized gate dielectric
    李佳
    蔚翠
    王丽
    刘庆彬
    何泽召
    蔡树军
    冯志红
    [J]. Journal of Semiconductors, 2014, 35 (07) - 68
  • [33] Gate-field-induced Schottky barrier lowering in a nanotube field-effect transistor
    Brintlinger, T
    Kim, BM
    Cobas, E
    Fuhrer, MS
    [J]. ELECTRONIC PROPERTIES OF SYNTHETIC NANOSTRUCTURES, 2004, 723 : 520 - 523
  • [34] Controlling the threshold voltage of a semiconductor field-effect transistor by gating its graphene gate
    Luca Anzi
    Artur Tuktamyshev
    Alexey Fedorov
    Amaia Zurutuza
    Stefano Sanguinetti
    Roman Sordan
    [J]. npj 2D Materials and Applications, 6
  • [35] Controlling the threshold voltage of a semiconductor field-effect transistor by gating its graphene gate
    Anzi, Luca
    Tuktamyshev, Artur
    Fedorov, Alexey
    Zurutuza, Amaia
    Sanguinetti, Stefano
    Sordan, Roman
    [J]. NPJ 2D MATERIALS AND APPLICATIONS, 2022, 6 (01)
  • [36] Giant plasmon instability in a dual-grating-gate graphene field-effect transistor
    Koseki, Y.
    Ryzhii, V.
    Otsuji, T.
    Popov, V. V.
    Satou, A.
    [J]. PHYSICAL REVIEW B, 2016, 93 (24)
  • [37] Dielectric Engineered Tunnel Field-Effect Transistor
    Ilatikhameneh, Hesameddin
    Ameen, Tarek A.
    Klimeck, Gerhard
    Appenzeller, Joerg
    Rahman, Rajib
    [J]. IEEE ELECTRON DEVICE LETTERS, 2015, 36 (10) : 1097 - 1100
  • [38] Thermally Evaporated SiO Serving as Gate Dielectric in Graphene Field-Effect Transistors
    Yang, Letao
    Wang, Hanbin
    Zhang, Xijian
    Li, Yuxiang
    Chen, Xiufang
    Xu, Xiangang
    Zhao, Xian
    Song, Aimin
    [J]. IEEE TRANSACTIONS ON ELECTRON DEVICES, 2017, 64 (04) : 1846 - 1850
  • [39] Bipolar Photoresponse of a Graphene Field-Effect Transistor Induced by Photochemical Reactions
    Khan, Muhammad Farooq
    Elahi, Ehsan
    Ul Hassan, Najam
    Rehman, Malik Abdul
    Khalil, H. M. Waseem
    Khan, Muhammad Asghar
    Rehman, Shania
    Hao, Aize
    Noh, Hwayong
    Khan, Karim
    Eom, Jonghwa
    [J]. ACS APPLIED ELECTRONIC MATERIALS, 2023, 5 (09) : 5111 - 5119
  • [40] The Behavioural Model of Graphene Field-effect Transistor
    Luszczek, Maciej
    Turzynski, Marek
    Swisulski, Dariusz
    [J]. INTERNATIONAL JOURNAL OF ELECTRONICS AND TELECOMMUNICATIONS, 2020, 66 (04) : 753 - 758
12345