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 …

Ion transport and hydrodynamic flow through nanometer-sized channels (nanopores) have
been increasingly studied owing to not only the fundamental interest in the abundance of …

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 …

Nanopore platform holds a great fascination that attracts increasing interests in research and
leads the development of various domains. Herein we first briefly introduce the …

Nanopores embedded in two-dimensional (2D) nanomaterials are a promising emerging
technology for osmotic power generation. Here, coupling our new AFM-based pore …

Metal halide perovskite materials, benefiting from a combination of outstanding
optoelectronic properties and low‐cost solution‐preparation processes, show tremendous …

Solid‐state nanopores are a mimic of innate biological nanopores embedded on lipid
membranes. They are fabricated on thin suspended layers of synthetic materials that provide …

For nanopore sensing of various-sized molecules with high sensitivity, the size of the
nanopore should be adjusted according to the size of each target molecule. For solid-state …

Conductive atomic force microscopy (CAFM) has become the preferred tool of many
companies and academics to analyze the electronic properties of materials and devices at …