Nanopore-based sensors have established themselves as a prominent tool for solution-
based, single-molecule analysis of the key building blocks of life, including nucleic acids …

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 …

Solid-state nanopores are now well established as single-biomolecule sensors that hold
great promise as sensing elements in diagnostic and sequencing applications. However …

Plasmonic and nanopore sensors have separately received much attention for achieving
single‐molecule precision. A plasmonic “hotspot” confines and enhances optical excitation …

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

Since their introduction in 2001, solid-state nanopores have been increasingly exploited for
the detection and characterization of biomolecules ranging from single DNA strands to …

Electroosmosis is a fascinating effect where liquid motion is induced by an applied electric
field. Counter ions accumulate in the vicinity of charged surfaces, triggering a coupling …

In two decades, the solid state and polymer nanopores became attractive method for the
protein sensing with high specificity and sensitivity. They also allow the characterization of …

Nanopores fabricated from synthetic materials (solid-state nanopores), platforms for
characterizing biological molecules, have been widely studied among researchers …

Sculpting solid-state materials at the nanoscale is an important step in the manufacturing of
numerous types of sensor devices, in particular solid-state nanopore sensors. Here we …