Add to ORKGMolecule synthesis is convenient on the small scale while electrode fabrication is more convenient on the large scale. In this project they meet each other halfway for the development of a twin electrode design featuring surface attached molecules undergoing redox cycling. Research has focused on novel applications of the redox cycling phenomena, fabrication of electrodes with an inter electrode spacing in the nanometer range, and the electrochemical behavior of surface attached ferrocene labeled polyethylene glycol (PEG). This knowledge is combined in experiments where the PEG molecules are cycling between two electrodes spaced < 100nm apart. This setup can be used as the transducing element of an electrochemical sensor if the molecules ar...
Herein, we present a novel electrochemical sensing platform that consists of a set of suspended carb...
In this work, we demonstrated that enhancement of electrochemical current due to redox cycling could...
In this paper we report the use of ferrocenyl-tethered dendrimer (Fc-D) as an electrode modifier sup...
Nanoscale redox cycling is a powerful technique for detecting electrochemically active molecules, ba...
Electrochemistry provides a powerful sensor transduction and amplification mechanism that is highly ...
ConspectusMicro- and nanofabriation technologies have a tremendous potential for the development of ...
Redox cycling is a powerful tool for the electrical detection of chemical electrode reactions. Owing...
This paper describes a paper-based biochemical sensor that realizes redox cycling with close interel...
Multilayer inkjet printing is emerging as a robust platform for fabricating flexible electronic devi...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
In this thesis, the results obtained from a research project aimed at ultimately realizing an all-el...
We propose a new geometry for nanogap electrochemical sensing devices. These devices consist of two ...
We propose a new geometry for nanogap electrochemical sensing devices. These devices consist of two ...
Redox enzymes can generate electricity from sunlight and produce valuable chemicals, including fuels...
A pair of interdigitated ultramicroelectrodes (UMEs) is used to electrochemically detect a weak redu...
Herein, we present a novel electrochemical sensing platform that consists of a set of suspended carb...
In this work, we demonstrated that enhancement of electrochemical current due to redox cycling could...
In this paper we report the use of ferrocenyl-tethered dendrimer (Fc-D) as an electrode modifier sup...
Nanoscale redox cycling is a powerful technique for detecting electrochemically active molecules, ba...
Electrochemistry provides a powerful sensor transduction and amplification mechanism that is highly ...
ConspectusMicro- and nanofabriation technologies have a tremendous potential for the development of ...
Redox cycling is a powerful tool for the electrical detection of chemical electrode reactions. Owing...
This paper describes a paper-based biochemical sensor that realizes redox cycling with close interel...
Multilayer inkjet printing is emerging as a robust platform for fabricating flexible electronic devi...
Amperometric detection is ideally suited for integration into micro- and nanofluidic systems as it d...
In this thesis, the results obtained from a research project aimed at ultimately realizing an all-el...
We propose a new geometry for nanogap electrochemical sensing devices. These devices consist of two ...
We propose a new geometry for nanogap electrochemical sensing devices. These devices consist of two ...
Redox enzymes can generate electricity from sunlight and produce valuable chemicals, including fuels...
A pair of interdigitated ultramicroelectrodes (UMEs) is used to electrochemically detect a weak redu...
Herein, we present a novel electrochemical sensing platform that consists of a set of suspended carb...
In this work, we demonstrated that enhancement of electrochemical current due to redox cycling could...
In this paper we report the use of ferrocenyl-tethered dendrimer (Fc-D) as an electrode modifier sup...