Salt Dependence of Ion Transport and DNA Translocation through Solid-State Nanopores
Delft University of Technology
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Abstract
We report experimental measurements of the salt dependence of ion transport and DNA translocation through solid-state nanopores. The ionic conductance shows a three-order-of-magnitude decrease with decreasing salt concentrations from 1 M to 1 muM, strongly deviating from bulk linear behavior. The data are described by a model that accounts for a salt-dependent surface charge of the pore. Subsequently, we measure translocation of 16.5-mum-long dsDNA for 50 mM to 1 M salt concentrations. DNA translocation is shown to result in either a decrease ([KCl] > 0.4 M) or increase of the ionic current ([KCl]
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6Topics & keywords
Topics
Keywords
- Nanopore
- Ionic bonding
- Counterion
- Salt (chemistry)
- Chemistry
- Ion
- Conductance
- Chemical physics
UN Sustainable Development Goals
- Clean water and sanitation
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