Microsystems & Nanoengineering (May 2023)

Study on the controllability of the fabrication of single-crystal silicon nanopores/nanoslits with a fast-stop ionic current-monitored TSWE method

  • Hao Hong,
  • Jiangtao Wei,
  • Xin Lei,
  • Haiyun Chen,
  • Pasqualina M. Sarro,
  • Guoqi Zhang,
  • Zewen Liu

DOI
https://doi.org/10.1038/s41378-023-00532-0
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 10

Abstract

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Abstract The application of single-crystal silicon (SCS) nanopore structures in single-molecule-based analytical devices is an emerging approach for the separation and analysis of nanoparticles. The key challenge is to fabricate individual SCS nanopores with precise sizes in a controllable and reproducible way. This paper introduces a fast-stop ionic current-monitored three-step wet etching (TSWE) method for the controllable fabrication of SCS nanopores. Since the nanopore size has a quantitative relationship with the corresponding ionic current, it can be regulated by controlling the ionic current. Thanks to the precise current-monitored and self-stop system, an array of nanoslits with a feature size of only 3 nm was obtained, which is the smallest size ever reported using the TSWE method. Furthermore, by selecting different current jump ratios, individual nanopores of specific sizes were controllably prepared, and the smallest deviation from the theoretical value was 1.4 nm. DNA translocation measurement results revealed that the prepared SCS nanopores possessed the excellent potential to be applied in biosensing.