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Carbon nanotube intramolecular junctions

Author

Listed:
  • Zhen Yao

    (Delft University of Technology)

  • Henk W. Ch. Postma

    (Delft University of Technology)

  • Leon Balents

    (Bell Laboratories, Lucent Technologies)

  • Cees Dekker

    (Delft University of Technology)

Abstract

The ultimate device miniaturization would be to use individual molecules as functional devices. Single-wall carbon nanotubes (SWNTs) are promising candidates for achieving this: depending on their diameter and chirality, they are either one-dimensional metals or semiconductors1,2. Single-electron transistors employing metallic nanotubes3,4 and field-effect transistors employing semiconducting nanotubes5 have been demonstrated. Intramolecular devices have also been proposed which should display a range of other device functions6,7,8,9,10,11. For example, by introducing a pentagon and a heptagon into the hexagonal carbon lattice, two tube segments with different atomic and electronic structures can be seamlessly fused together to create intramolecular metal–metal, metal–semiconductor, or semiconductor–semiconductor junctions. Here we report electrical transport measurements on SWNTs with intramolecular junctions. We find that a metal–semiconductor junction behaves like a rectifying diode with nonlinear transport characteristics that are strongly asymmetric with respect to bias polarity. In the case of a metal–metal junction, the conductance appears to be strongly suppressed and it displays a power-law dependence on temperatures and applied voltage, consistent with tunnelling between the ends of two Luttinger liquids. Our results emphasize the need to consider screening and electron interactions when designing and modelling molecular devices. Realization of carbon-based molecular electronics will require future efforts in the controlled production of these intramolecular nanotube junctions.

Suggested Citation

  • Zhen Yao & Henk W. Ch. Postma & Leon Balents & Cees Dekker, 1999. "Carbon nanotube intramolecular junctions," Nature, Nature, vol. 402(6759), pages 273-276, November.
  • Handle: RePEc:nat:nature:v:402:y:1999:i:6759:d:10.1038_46241
    DOI: 10.1038/46241
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    Cited by:

    1. Guo Yu & Pengjie Wang & Ayelet J. Uzan-Narovlansky & Yanyu Jia & Michael Onyszczak & Ratnadwip Singha & Xin Gui & Tiancheng Song & Yue Tang & Kenji Watanabe & Takashi Taniguchi & Robert J. Cava & Lesl, 2023. "Evidence for two dimensional anisotropic Luttinger liquids at millikelvin temperatures," Nature Communications, Nature, vol. 14(1), pages 1-8, December.
    2. Anqi Wang & Yupeng Li & Guang Yang & Dayu Yan & Yuan Huang & Zhaopeng Guo & Jiacheng Gao & Jierui Huang & Qiaochu Zeng & Degui Qian & Hao Wang & Xingchen Guo & Fanqi Meng & Qinghua Zhang & Lin Gu & Xi, 2023. "A robust and tunable Luttinger liquid in correlated edge of transition-metal second-order topological insulator Ta2Pd3Te5," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    3. Lim, M.C.G. & Zhong, Z.W., 2011. "Effects of electromigration on copper atoms in carbon nanotube channels," Physica A: Statistical Mechanics and its Applications, Elsevier, vol. 390(5), pages 963-971.

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