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Ballistic carbon nanotube field-effect transistors

Author

Listed:
  • Ali Javey

    (Stanford University)

  • Jing Guo

    (Purdue University)

  • Qian Wang

    (Stanford University)

  • Mark Lundstrom

    (Purdue University)

  • Hongjie Dai

    (Stanford University)

Abstract

A common feature of the single-walled carbon-nanotube field-effect transistors fabricated to date has been the presence of a Schottky barrier at the nanotube–metal junctions1,2,3. These energy barriers severely limit transistor conductance in the ‘ON’ state, and reduce the current delivery capability—a key determinant of device performance. Here we show that contacting semiconducting single-walled nanotubes by palladium, a noble metal with high work function and good wetting interactions with nanotubes, greatly reduces or eliminates the barriers for transport through the valence band of nanotubes. In situ modification of the electrode work function by hydrogen is carried out to shed light on the nature of the contacts. With Pd contacts, the ‘ON’ states of semiconducting nanotubes can behave like ohmically contacted ballistic metallic tubes, exhibiting room-temperature conductance near the ballistic transport limit of 4e2/h (refs 4–6), high current-carrying capability (∼25 µA per tube), and Fabry–Perot interferences5 at low temperatures. Under high voltage operation, the current saturation appears to be set by backscattering of the charge carriers by optical phonons. High-performance ballistic nanotube field-effect transistors with zero or slightly negative Schottky barriers are thus realized.

Suggested Citation

  • Ali Javey & Jing Guo & Qian Wang & Mark Lundstrom & Hongjie Dai, 2003. "Ballistic carbon nanotube field-effect transistors," Nature, Nature, vol. 424(6949), pages 654-657, August.
    • Handle: RePEc:nat:nature:v:424:y:2003:i:6949:d:10.1038_nature01797
    DOI: 10.1038/nature01797
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    Cited by:

    1. Pourfath, M. & Kosina, H. & Selberherr, S., 2008. "Numerical study of quantum transport in carbon nanotube transistors," Mathematics and Computers in Simulation (MATCOM), Elsevier, vol. 79(4), pages 1051-1059.
    2. Kiani, Keivan, 2015. "Nanomechanical sensors based on elastically supported double-walled carbon nanotubes," Applied Mathematics and Computation, Elsevier, vol. 270(C), pages 216-241.
    3. Dehua Yang & Linhai Li & Xiao Li & Wei Xi & Yuejuan Zhang & Yumin Liu & Xiaojun Wei & Weiya Zhou & Fei Wei & Sishen Xie & Huaping Liu, 2023. "Preparing high-concentration individualized carbon nanotubes for industrial separation of multiple single-chirality species," Nature Communications, Nature, vol. 14(1), pages 1-12, December.
    4. Akbari, Elnaz & Buntat, Zolkafle & Nikoukar, Ali & Kheirandish, Azadeh & Khaledian, Mohsen & Afroozeh, Abdolkarim, 2016. "Sensor application in Direct Methanol Fuel Cells (DMFCs)," Renewable and Sustainable Energy Reviews, Elsevier, vol. 60(C), pages 1125-1139.

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