Solid-state nanopores are nm sized apertures formed in thin synthetic membranes. These
single molecule sensors have been used in a variety of biophysical and diagnostic …

Nanopores in solid-state membranes are promising for a wide range of applications
including DNA sequencing, ultra-dilute analyte detection, protein analysis, and polymer data …

First-and second-generation sequencing technologies have led the way in revolutionizing
the field of genomics and beyond, motivating an astonishing number of scientific advances …

Provided herein are methods and devices for characterizing a biomolecule parameter by a
nanopore-containing mem brane, and also methods for making devices that can be used in …

Nanopore sensors have attracted considerable interest for high-throughput sensing of
individual nucleic acids and proteins without the need for chemical labels or complex optics …

DNA sequencing is in the throes of an enormous technolog-ical shift marked by dramatic
throughput increases, a precipitously dropping per-base cost of raw sequence, and an …

Nanopores could potentially be used to perform single-molecule DNA sequencing at low
cost and with high throughput,,,. Although single base resolution and differentiation have …

Next-generation sequencing (NGS) technology, with its high-throughput capacity and low
cost, has developed rapidly in recent years and become an important analytical tool for …

The “1000Genome”projecthasbeendrawingincreasingattention….Nanoporesequencing,
thethird-generation,isbelievedtobeoneofthemostpromisingsequ…“ 1000 Genome” while the …

It has recently been recognized that solid-state nanopores in single-atomic-layer graphene
membranes can be used to electronically detect and characterize single long charged …