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Combined quantum tunnelling and dielectrophoretic trapping for molecular analysis at ultra-low analyte concentrations

Author

Listed:
  • Longhua Tang

    (Zhejiang University
    Imperial College London
    Zhejiang University)

  • Binoy Paulose Nadappuram

    (Imperial College London)

  • Paolo Cadinu

    (Imperial College London)

  • Zhiyu Zhao

    (Zhejiang University)

  • Liang Xue

    (Imperial College London)

  • Long Yi

    (Imperial College London)

  • Ren Ren

    (Imperial College London)

  • Jiangwei Wang

    (Zhejiang University)

  • Aleksandar P. Ivanov

    (Imperial College London)

  • Joshua B. Edel

    (Imperial College London)

Abstract

Quantum tunnelling offers a unique opportunity to study nanoscale objects with atomic resolution using electrical readout. However, practical implementation is impeded by the lack of simple, stable probes, that are required for successful operation. Existing platforms offer low throughput and operate in a limited range of analyte concentrations, as there is no active control to transport molecules to the sensor. We report on a standalone tunnelling probe based on double-barrelled capillary nanoelectrodes that do not require a conductive substrate to operate unlike other techniques, such as scanning tunnelling microscopy. These probes can be used to efficiently operate in solution environments and detect single molecules, including mononucleotides, oligonucleotides, and proteins. The probes are simple to fabricate, exhibit remarkable stability, and can be combined with dielectrophoretic trapping, enabling active analyte transport to the tunnelling sensor. The latter allows for up to 5-orders of magnitude increase in event detection rates and sub-femtomolar sensitivity.

Suggested Citation

  • Longhua Tang & Binoy Paulose Nadappuram & Paolo Cadinu & Zhiyu Zhao & Liang Xue & Long Yi & Ren Ren & Jiangwei Wang & Aleksandar P. Ivanov & Joshua B. Edel, 2021. "Combined quantum tunnelling and dielectrophoretic trapping for molecular analysis at ultra-low analyte concentrations," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21101-x
    DOI: 10.1038/s41467-021-21101-x
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    Cited by:

    1. Jianxin Yang & Tianle Pan & Zhenming Xie & Wu Yuan & Ho-Pui Ho, 2024. "In-tube micro-pyramidal silicon nanopore for inertial-kinetic sensing of single molecules," Nature Communications, Nature, vol. 15(1), pages 1-12, December.

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