Devices for Nanoscale Guiding of DNA through a 2D Nanopore
Autor: | David J. Niedzwiecki, Rachael Keneipp, Chih-Yuan Lin, Brian DiPaolo, Marija Drndic, Alice Castan |
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Rok vydání: | 2021 |
Předmět: |
Ions
Fluid Flow and Transfer Processes chemistry.chemical_classification Fabrication Materials science Process Chemistry and Technology Biomolecule Bioengineering Nanotechnology DNA Chip Finite element method Nanopores Nanopore chemistry.chemical_compound Silicon nitride chemistry Monolayer Instrumentation Nanoscopic scale |
Zdroj: | ACS Sensors. 6:2534-2545 |
ISSN: | 2379-3694 |
DOI: | 10.1021/acssensors.1c00829 |
Popis: | We fabricate on-chip solid-state nanofluidic-2D nanopore systems that can limit the range of motion for DNA in the sensing region of a nanopore. We do so by creating devices containing one or more silicon nitride pores and silicon nitride pillars supporting a 2D pore that orient DNA within a nanopore device to a restricted geometry, yet allow the free motion of ions to maintain a high signal-to-noise ratio. We discuss two concepts with two and three independent electrical connections and corresponding nanopore chip device architectures to achieve this goal in practice. Here, we describe device fabrication and transmission electron microscope (TEM) images, and provide simulated translocations based on the finite element analysis in 3D to demonstrate its merit. In both methods, there is a main 2D nanopore which we refer to as a "sensing" nanopore (monolayer MoS2 in this paper). A secondary layer is either an array of guiding pores sharing the same electrode pair as the sensing pore (Method 1) or a single, independently contacted, guiding pore (Method 2). These pores are constructed parallel to the "sensing" pore and serve as "guiding" elements to stretch and feed DNA into the atomically thin sensing pore. We discuss the practical implementation of these concepts with nanofluidic and Si-based technology, including detailed fabrication steps and challenges involved for DNA applications in solution. |
Databáze: | OpenAIRE |
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