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Single-ion adsorption and switching in carbon nanotubes

Author

Listed:
  • Adam W. Bushmaker

    (Physical Sciences Laboratories, The Aerospace Corporation)

  • Vanessa Oklejas

    (Physical Sciences Laboratories, The Aerospace Corporation)

  • Don Walker

    (Physical Sciences Laboratories, The Aerospace Corporation)

  • Alan R. Hopkins

    (Physical Sciences Laboratories, The Aerospace Corporation)

  • Jihan Chen

    (The University of Southern California)

  • Stephen B. Cronin

    (The University of Southern California)

Abstract

Single-ion detection has, for many years, been the domain of large devices such as the Geiger counter, and studies on interactions of ionized gasses with materials have been limited to large systems. To date, there have been no reports on single gaseous ion interaction with microelectronic devices, and single neutral atom detection techniques have shown only small, barely detectable responses. Here we report the observation of single gaseous ion adsorption on individual carbon nanotubes (CNTs), which, because of the severely restricted one-dimensional current path, experience discrete, quantized resistance increases of over two orders of magnitude. Only positive ions cause changes, by the mechanism of ion potential-induced carrier depletion, which is supported by density functional and Landauer transport theory. Our observations reveal a new single-ion/CNT heterostructure with novel electronic properties, and demonstrate that as electronics are ultimately scaled towards the one-dimensional limit, atomic-scale effects become increasingly important.

Suggested Citation

  • Adam W. Bushmaker & Vanessa Oklejas & Don Walker & Alan R. Hopkins & Jihan Chen & Stephen B. Cronin, 2016. "Single-ion adsorption and switching in carbon nanotubes," Nature Communications, Nature, vol. 7(1), pages 1-8, April.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms10475
    DOI: 10.1038/ncomms10475
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