Nanopores are nanofluidic channels formed through thin membranes that can deliver
standout single-molecule and single-particle sensing capabilities. Analytical targets include …

The properties of polymer layers end-grafted to the inner surface of nanopores connected to
solvent reservoirs are studied theoretically as a function of solvent quality and pore …

A nanoporous alumina membrane-based ultrasensitive DNA biosensor is constructed using
5′-aminated DNA probes immobilized onto the alumina channel walls. Alumina …

An electrochemical nanoporous alumina membrane-based label free DNA biosensor is
developed using 5′-aminated DNA probes immobilized into the nanochannels of alumina …

Several strategies have been developed for the control of DNA translocation in nanopores
and nanochannels. However, the possibility to reduce the molecule speed is still …

Single molecule electrical sensing with nanopores is a rapidly develo** field with potential
revolutionary effects on bioanalytics and diagnostics. The recent success of this technology …

We demonstrate the possibility of using a simple functionalization procedure, based on an
initial vapour-phase silanization, to control the size and functionality of solid state …

In the last years, nanopore technology has been increasingly exploited for biomolecule
detection and analysis. Recently, the main focus of the research has moved from the study of …

Aims: sensitivity, selectivity and tunability are keywords to develop effective and reliable
diagnostic and bioanalytical tools. In this context, micro and nanofluidic devices constitute a …

The objective of this study was to demonstrate the possibility of using 1-butanol to reliably
detect the open-pore current of pyramidal solid-state nanopores produced in silicon wafers …