Topics
electrochemicalOrganisation
redoxAnatomical structure
We have developed a nanofluidic device consisting of a 300 nm high, water-filled cavity bounded by two parallel electrodes which amplifies the electrochemical signal from redox molecules inside the cavity by a factor of ~400 through redox cycling
Nanoscale channels and electrodes for electrochemical measurements exhibit extreme surface-to-volume...
Electrochemical nanofluidic devices are chip-based sensors consisting of a nanochannel of approximat...
Electrochemical detection of individual molecular tags in nanochannels may enable cost-effective, ma...
We show that a nanofluidic device consisting of a solution-filled cavity bounded by two closely spac...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
We have developed a lithography-based nanofluidic device for sensitive electrochemical detection app...
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...
Redox cycling is a commonly used electrochemical sensing scheme for enhancing faradaic current signa...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
A redox cycling geometry based on an array of nanopore-confined recessed dual-ring electrodes (RDREs...
Nanoscale redox cycling is a powerful technique for detecting electrochemically active molecules, ba...
Microfabricated nanofluidic electrochemical devices offer a highly controlled nanochannel geometry; ...
Redox cycling electrochemistry in arrays of individually encapsulated attoliter-volume (V ∼ 10 aL) n...
Pore-based structures occur widely in living organisms. Ion channels embedded in cell membranes, for...
Nanoscale channels and electrodes for electrochemical measurements exhibit extreme surface-to-volume...
Electrochemical nanofluidic devices are chip-based sensors consisting of a nanochannel of approximat...
Electrochemical detection of individual molecular tags in nanochannels may enable cost-effective, ma...
We show that a nanofluidic device consisting of a solution-filled cavity bounded by two closely spac...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
We have developed a lithography-based nanofluidic device for sensitive electrochemical detection app...
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...
Redox cycling is a commonly used electrochemical sensing scheme for enhancing faradaic current signa...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
A redox cycling geometry based on an array of nanopore-confined recessed dual-ring electrodes (RDREs...
Nanoscale redox cycling is a powerful technique for detecting electrochemically active molecules, ba...
Microfabricated nanofluidic electrochemical devices offer a highly controlled nanochannel geometry; ...
Redox cycling electrochemistry in arrays of individually encapsulated attoliter-volume (V ∼ 10 aL) n...
Pore-based structures occur widely in living organisms. Ion channels embedded in cell membranes, for...
Nanoscale channels and electrodes for electrochemical measurements exhibit extreme surface-to-volume...
Electrochemical nanofluidic devices are chip-based sensors consisting of a nanochannel of approximat...
Electrochemical detection of individual molecular tags in nanochannels may enable cost-effective, ma...
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