Add to ORKGSingle nanopores attract a great deal of scientific interest as a basis for biosensors and as a system to study the interactions and behavior of molecules in a confined volume. Tuning the geometry and surface chemistry of nanopores helps create devices that control transport of ions and molecules in solution. Here, we present single conically shaped nanopores whose narrow opening of 8 or 12 nm is modified with single-stranded DNA molecules. We find that the DNA occludes the narrow opening of nanopores and that the blockade extent decreases with the ionic strength of the background electrolyte. The results are explained by the ionic strength dependence of the persistence length of DNA. At low KCl concentrations (10 mM) the molecules assume a...
Biological nanopores are an essential element to the success of the lipid bilayer that makes life po...
This thesis describes experimental work on a novel type of devices capable of detecting single-(bio)...
86 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2009.This work focuses on studying ...
AbstractSolid-state nanopores have received increasing interest over recent years because of their p...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Biological molecules can be forced to pass through an aperture in a thin membrane of only several na...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Many important processes in biology involve the translocation of a biopolymer through a nanometer-sc...
We report experimental measurements of the salt dependence of ion transport and DNA translocation th...
We demonstrate that voltage biased solid-state nanopores can transiently localize DNA in an electrol...
Single molecule sensors in which nanoscale pores within biological or artificial membranes act as me...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Nanopores are nanometer sized openings that are the connection between two electrolyte filled reserv...
We show that the ionic environment plays a critical role in determining the configurational properti...
Membrane-spanning nanopores from folded DNA are a recent example of biomimetic man-made nanostructur...
Biological nanopores are an essential element to the success of the lipid bilayer that makes life po...
This thesis describes experimental work on a novel type of devices capable of detecting single-(bio)...
86 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2009.This work focuses on studying ...
AbstractSolid-state nanopores have received increasing interest over recent years because of their p...
Nanopores are small (1–100 nm diameter) holes/channels formed in biological membranes (Fig. 1) or fa...
Biological molecules can be forced to pass through an aperture in a thin membrane of only several na...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Many important processes in biology involve the translocation of a biopolymer through a nanometer-sc...
We report experimental measurements of the salt dependence of ion transport and DNA translocation th...
We demonstrate that voltage biased solid-state nanopores can transiently localize DNA in an electrol...
Single molecule sensors in which nanoscale pores within biological or artificial membranes act as me...
Solid-state nanopores have emerged as possible candidates for next-generation DNA sequencing devices...
Nanopores are nanometer sized openings that are the connection between two electrolyte filled reserv...
We show that the ionic environment plays a critical role in determining the configurational properti...
Membrane-spanning nanopores from folded DNA are a recent example of biomimetic man-made nanostructur...
Biological nanopores are an essential element to the success of the lipid bilayer that makes life po...
This thesis describes experimental work on a novel type of devices capable of detecting single-(bio)...
86 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2009.This work focuses on studying ...