Ion, particle, and fluid transport in nanofluidic devices has received considerable attention
over the past two decades due to unique transport properties exhibited at the nanoscale. 1 …

Single-molecule biosensors serve the unmet need for real time detection of individual
biological molecules in the molecular crowd with high specificity and accuracy, uncovering …

Nanopores bear great potential as sensors for single molecules, which are detected as
resistive pulses in a simple electrical measurement. The investigation of proteins requires …

Thanks to its unique features at the nanoscale, nanofluidics, the study and application of
fluid flow in nanochannels/nanopores with at least one characteristic size smaller than 100 …

Single-molecule detection is the ultimate sensitivity in analytical chemistry and has been
largely unavailable in electrochemical analysis. Here, we demonstrate the feasibility of …

From a materials science point of view, graphene is essentially a polymer having a giant,
two‐dimensional molecular configuration. In this Progress Report, solvated graphene and its …

Signal amplification in conventional enzyme-based biosensors is not high enough to
achieve the ultrasensitive detection of biomolecules. In recent years, signal amplification has …

The field of nanoscale electrochemistry has received enormous attention in the last several
years with numerous exciting advancements reported in several rapidly growing areas …

This Review reports recent advances in the field of nanoscale electrochemistry. We
specifically focus on new electrochemical phenomena, properties, and technological …

Nanoelectrodes, with dimensions below 100 nm, have the advantages of high sensitivity
and high spatial resolution. These electrodes have attracted increasing attention in various …