Issue 12, 2014

Solid-state nanopores and nanopore arrays optimized for optical detection

Abstract

While conventional solid-state nanopore measurements utilize ionic current, there is a growing interest in alternative sensing paradigms, including optical detection. However, a limiting factor in the application of optical schemes in particular is the inherent background fluorescence created by the solid-state membrane itself, which can interfere with the desired signal and place restrictions on the fluorophores that can be employed. An ideal device would incorporate a localized reduction in membrane fluorescence using a method that can be integrated easily with the nanopore fabrication process. Here, we demonstrate that in addition to forming nanopores and nanopore arrays, a focused helium ion beam can be used to reduce the fluorescence of a conventional silicon nitride membrane controllably. The reduction in background produces low-fluorescence devices that can be used for optical detection of double-strand DNA, as well as for conventional resistive pulse sensing. This approach is used to identify the translocation of short single-strand DNA through individual nanopores within an array, creating potential for a massively-parallel detection scheme.

Graphical abstract: Solid-state nanopores and nanopore arrays optimized for optical detection

Supplementary files

Article information

Article type
Paper
Submitted
17 Jan 2014
Accepted
03 May 2014
First published
06 May 2014

Nanoscale, 2014,6, 6991-6996

Author version available

Solid-state nanopores and nanopore arrays optimized for optical detection

F. Sawafta, B. Clancy, A. T. Carlsen, M. Huber and A. R. Hall, Nanoscale, 2014, 6, 6991 DOI: 10.1039/C4NR00305E

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