Add to ORKGWe have developed a lithography-based nanofluidic device for sensitive electrochemical detection applications. The device consists of a solution-filled channel bounded by parallel electrodes that are separated by ~50 nm. Redox cycling at the two electrodes is used to amplify the electrochemical signals from molecules in the volume between the electrodes, and can lead to dramatic improvements in sensitivity and/or selectivity. Interestingly, an important limit to sensitivity is placed by statistical fluctuations in the number of molecules present in the device, a consequence of its extremely small volume (a few femtolitres). In this Proceedings article, we focus on the consequences of these statistical fluctuations on the signal-to-noise rat...
Electrochemical detection of individual molecular tags in nanochannels may enable cost-effective, ma...
We investigate noise effects in nanoscaled electrochemical sensors using a three-dimensional simulat...
We investigate noise effects in nanoscaled electrochemical sensors using a three-dimensional simulat...
This thesis describes nanofluidic devices capable of detecting small numbers of redox-active molecul...
We show that a nanofluidic device consisting of a solution-filled cavity bounded by two closely spac...
We report the electrochemical detection of individual redox-active molecules as they freely diffuse ...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
Nanofluidic thin-layer cells count among the most sensitive electrochemical sensors built to date. H...
We describe a simulation framework for the modeling of electrochemical processes within nanocavity r...
ConspectusMicro- and nanofabriation technologies have a tremendous potential for the development of ...
We have developed a chip-based nanofluidic device to amplify the electrochemical signal of catechols...
The main focus of this thesis is to explore mass-transport processes for redox-active analytes in co...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
In this paper an easy to fabricate SU8/glass-based microfluidic sensor is described with two closely...
This thesis explores the coupling between electrochemical processes and mass transport in nanochanne...
Electrochemical detection of individual molecular tags in nanochannels may enable cost-effective, ma...
We investigate noise effects in nanoscaled electrochemical sensors using a three-dimensional simulat...
We investigate noise effects in nanoscaled electrochemical sensors using a three-dimensional simulat...
This thesis describes nanofluidic devices capable of detecting small numbers of redox-active molecul...
We show that a nanofluidic device consisting of a solution-filled cavity bounded by two closely spac...
We report the electrochemical detection of individual redox-active molecules as they freely diffuse ...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
Nanofluidic thin-layer cells count among the most sensitive electrochemical sensors built to date. H...
We describe a simulation framework for the modeling of electrochemical processes within nanocavity r...
ConspectusMicro- and nanofabriation technologies have a tremendous potential for the development of ...
We have developed a chip-based nanofluidic device to amplify the electrochemical signal of catechols...
The main focus of this thesis is to explore mass-transport processes for redox-active analytes in co...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
In this paper an easy to fabricate SU8/glass-based microfluidic sensor is described with two closely...
This thesis explores the coupling between electrochemical processes and mass transport in nanochanne...
Electrochemical detection of individual molecular tags in nanochannels may enable cost-effective, ma...
We investigate noise effects in nanoscaled electrochemical sensors using a three-dimensional simulat...
We investigate noise effects in nanoscaled electrochemical sensors using a three-dimensional simulat...