Owing to its high carrier mobility, exceptional thermal conductivity, optical transparency, and
mechanical flexibility, graphene holds great promise for numerous applications, including …

Scope of the Review. Herein, we provide an up-to-date overview of the field of nanopore
sensing with emphases placed on the advances made in the most recent two years (2014 …

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 …

The size of the sensing region in solid-state nanopores is determined by the size of the pore
and the thickness of the pore membrane, so ultrathin membranes such as graphene and …

The electrical current blockade of a peptide or protein threading through a nanopore can be
used as a fingerprint of the molecule in biosensor applications. However, threading of full …

Atomically thin nanopore membranes are considered to be a promising approach to achieve
single base resolution with the ultimate aim of rapid and cheap DNA sequencing …

Advances in nanopore sequencing technology have enabled investigation of the full
catalogue of covalent DNA modifications. We present the first algorithm for the identification …

Proteins are structurally dynamic macromolecules, and it is challenging to quantify the
conformational properties of their native state in solution. Nanopores can be efficient tools to …

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 …

Nanopores bear great potential as single-molecule tools for bioanalytical sensing and
sequencing, due to their exceptional sensing capabilities, high-throughput, and low cost …