Add to ORKGAmperometric detection is ideally suited for integration into micro- and nanofluidic systems as it directly yields an electrical signal and does not necessitate optical components. However, the range of systems to which it can be applied is constrained by the limited sensitivity and specificity of the method. These limitations can be partially alleviated through the use of redox cycling, in which multiple electrodes are employed to repeatedly reduce and oxidize analyte molecules and thereby amplify the detected signal. We have developed an interdigitated electrode device that is encased in a nanofluidic channel to provide a hundred-fold amplification of the amperometric signal from paracetamol. Due to the nanochannel design, the sensor is r...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
Nanoscale redox cycling is a powerful technique for detecting electrochemically active molecules, ba...
Redox cycling is a powerful tool for the electrical detection of chemical electrode reactions. Owing...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
We have developed a chip-based nanofluidic device to amplify the electrochemical signal of catechols...
This thesis describes nanofluidic devices capable of detecting small numbers of redox-active molecul...
We have developed a lithography-based nanofluidic device for sensitive electrochemical detection app...
We show that a nanofluidic device consisting of a solution-filled cavity bounded by two closely spac...
We report the use of a Pt bipolar electrochemical nanocell and fluorescence to detect single redox m...
We report the electrochemical detection of individual redox-active molecules as they freely diffuse ...
Molecule synthesis is convenient on the small scale while electrode fabrication is more convenient o...
In this paper an easy to fabricate SU8/glass-based microfluidic sensor is described with two closely...
We have developed a nanofluidic device consisting of a 300 nm high, water-filled cavity bounded by t...
The main focus of this thesis is to explore mass-transport processes for redox-active analytes in co...
This paper describes a paper-based biochemical sensor that realizes redox cycling with close interel...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
Nanoscale redox cycling is a powerful technique for detecting electrochemically active molecules, ba...
Redox cycling is a powerful tool for the electrical detection of chemical electrode reactions. Owing...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
We have developed a chip-based nanofluidic device to amplify the electrochemical signal of catechols...
This thesis describes nanofluidic devices capable of detecting small numbers of redox-active molecul...
We have developed a lithography-based nanofluidic device for sensitive electrochemical detection app...
We show that a nanofluidic device consisting of a solution-filled cavity bounded by two closely spac...
We report the use of a Pt bipolar electrochemical nanocell and fluorescence to detect single redox m...
We report the electrochemical detection of individual redox-active molecules as they freely diffuse ...
Molecule synthesis is convenient on the small scale while electrode fabrication is more convenient o...
In this paper an easy to fabricate SU8/glass-based microfluidic sensor is described with two closely...
We have developed a nanofluidic device consisting of a 300 nm high, water-filled cavity bounded by t...
The main focus of this thesis is to explore mass-transport processes for redox-active analytes in co...
This paper describes a paper-based biochemical sensor that realizes redox cycling with close interel...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
Nanoscale redox cycling is a powerful technique for detecting electrochemically active molecules, ba...
Redox cycling is a powerful tool for the electrical detection of chemical electrode reactions. Owing...