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Shrinking of Solid-state Nanopores by Direct Thermal Heating

Waseem Asghar12, Azhar Ilyas12, Joseph Anthony Billo12 and Samir Muzaffar Iqbal123*

Author affiliations

1 Department of Electrical Engineering, University of Texas at Arlington, Arlington, TX 76019, USA

2 Nanotechnology Research and Teaching Facility, University of Texas at Arlington, Arlington, TX 76019, USA

3 Joint Graduate Committee of Bioengineering Program, University of Texas at Arlington and University of Texas Southwestern Medical Center at Dallas, University of Texas at Arlington, Arlington, TX 76019, USA

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Citation and License

Nanoscale Research Letters 2011, 6:372  doi:10.1186/1556-276X-6-372

Published: 4 May 2011


Solid-state nanopores have emerged as useful single-molecule sensors for DNA and proteins. A novel and simple technique for solid-state nanopore fabrication is reported here. The process involves direct thermal heating of 100 to 300 nm nanopores, made by focused ion beam (FIB) milling in free-standing membranes. Direct heating results in shrinking of the silicon dioxide nanopores. The free-standing silicon dioxide membrane is softened and adatoms diffuse to a lower surface free energy. The model predicts the dynamics of the shrinking process as validated by experiments. The method described herein, can process many samples at one time. The inbuilt stress in the oxide film is also reduced due to annealing. The surface composition of the pore walls remains the same during the shrinking process. The linear shrinkage rate gives a reproducible way to control the diameter of a pore with nanometer precision.