Add to ORKGAll forms of life on Earth contain cellular machinery that can transform and regulate chemical energy through metabolic pathways. These processes are oxidation-reduction reactions that are performed by four key classes of molecules: flavins, nicotinamaides, porphyrins, and quinones. By detecting the electrochemical interaction of these redox-active molecules with an electrode, a method of differentiating them by their class could be established and incorporated into future life-detecting missions. This body of work investigates the electrochemistry of ubiquitous molecules found in life and how they may be detected. Molecules can oxidise or reduce the surface of an electrode - giving or receiving electrons - and these interactions are repres...
We report the use of a Pt bipolar electrochemical nanocell and fluorescence to detect single redox m...
The electrochemical method of redox cycling was exploited to achieve new discoveries in neurotransmi...
We developed metabolite-sensitive electrochemical sensors on the basis of electrodes modified with a...
Despite advances in monitoring spatiotemporal expression patterns of genes and proteins with fluores...
Biological electron-exchange reactions are fundamental to life on earth. Redox reactions underpin re...
A highly hydrophobic porphyrin: di-octadecyl-amide deuteroporphyrin (D-ODA) was synthesized and inco...
A simple device which incorporates three electrodes (working electrode, counter electrode and refere...
Biology is well known for its ability to communicate through molecularly specific signaling modaliti...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
The research presented herein reports the development of two novel redox molecules for biosensing ap...
Extracellular communication relies on signaling molecules for cellular survival, division, different...
AbstractIn the present work we develop a real-time electrochemical mediator assay to enable the asse...
Biomolecules are integral constituents of living beings which regulate numerous biochemical function...
International audienceThe reduction behavior of N1-methyl nicotinamide iodide has been studied by dr...
The objective of this thesis is to develop a robust, flexible and versatile nano-structuredplatform ...
We report the use of a Pt bipolar electrochemical nanocell and fluorescence to detect single redox m...
The electrochemical method of redox cycling was exploited to achieve new discoveries in neurotransmi...
We developed metabolite-sensitive electrochemical sensors on the basis of electrodes modified with a...
Despite advances in monitoring spatiotemporal expression patterns of genes and proteins with fluores...
Biological electron-exchange reactions are fundamental to life on earth. Redox reactions underpin re...
A highly hydrophobic porphyrin: di-octadecyl-amide deuteroporphyrin (D-ODA) was synthesized and inco...
A simple device which incorporates three electrodes (working electrode, counter electrode and refere...
Biology is well known for its ability to communicate through molecularly specific signaling modaliti...
This thesis presents results obtained during a research project aimed at realizing electrochemical s...
The research presented herein reports the development of two novel redox molecules for biosensing ap...
Extracellular communication relies on signaling molecules for cellular survival, division, different...
AbstractIn the present work we develop a real-time electrochemical mediator assay to enable the asse...
Biomolecules are integral constituents of living beings which regulate numerous biochemical function...
International audienceThe reduction behavior of N1-methyl nicotinamide iodide has been studied by dr...
The objective of this thesis is to develop a robust, flexible and versatile nano-structuredplatform ...
We report the use of a Pt bipolar electrochemical nanocell and fluorescence to detect single redox m...
The electrochemical method of redox cycling was exploited to achieve new discoveries in neurotransmi...
We developed metabolite-sensitive electrochemical sensors on the basis of electrodes modified with a...