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 …

Nanopipettes provide a promising confined space that enables advances in
electrochemical, optical, and mass spectrometric measurements at the nanoscale. They …

The solid‐state nanopore has attracted much attention as a next‐generation DNA
sequencing tool or a single‐molecule biosensor platform with its high sensitivity of …

This paper demonstrates that high-bandwidth current recordings in combination with low-
noise silicon nitride nanopores make it possible to determine the molecular volume …

Solid-state nanopores and nanopipettes are an exciting class of single-molecule sensors
that has grown enormously over the last two decades. They offer a platform for testing …

Due to its potential applications in biotechnology, ion current rectification (ICR) arising from
the asymmetric nature of ion transport in a nanochannel has drawn the attention of …

There is a growing realization, especially within the diagnostic and therapeutic community,
that the amount of information enclosed in a single molecule can not only enable a better …

Sensors based on impedance transduction have been well consolidated in the industry for
decades. Today, the downscaling of the size of sensing elements to micrometric and …

A nanofluidic device is presented that, enables independent sensing and resensing of a
single DNA molecule translocating through two nanopores with sub‐micrometer spacing …

Solid-state nanopores are promising tools for single-molecule detection of both DNA and
proteins. In this study, we investigated the patterns of ionic current blockades as DNA …