Enzyme cascade electrode reactions with nanomaterials and their applicability towards biosensor and biofuel cells
S Kalyana Sundaram, MM Hossain, M Rezki, K Ariga… - Biosensors, 2023 - mdpi.com
Nanomaterials, including carbon nanotubes, graphene oxide, metal–organic frameworks,
metal nanoparticles, and porous carbon, play a crucial role as efficient carriers to enhance …
metal nanoparticles, and porous carbon, play a crucial role as efficient carriers to enhance …
[HTML][HTML] Electrochemically-driven Enzyme Cascades: Recent Developments in Design, Control, and Modelling
B Siritanaratkul, CF Megarity - Current Opinion in Electrochemistry, 2024 - Elsevier
The study of single redox enzymes by electrochemistry is well-established, using both
mediated and direct electron exchange between the enzyme and electrode. Moving beyond …
mediated and direct electron exchange between the enzyme and electrode. Moving beyond …
Electrochemical Nanoreactor Provides a Comprehensive View of Isocitrate Dehydrogenase Cancer‐drug Kinetics
RA Herold, CJ Schofield, FA Armstrong - Angewandte Chemie, 2023 - Wiley Online Library
The ability to control enzyme cascades entrapped in a nanoporous electrode material (the
“Electrochemical Leaf”, e‐Leaf) has been exploited to gain detailed kinetic insight into the …
“Electrochemical Leaf”, e‐Leaf) has been exploited to gain detailed kinetic insight into the …
Interactive biocatalysis achieved by driving enzyme cascades inside a porous conducting material
An emerging concept and platform, the electrochemical Leaf (e-Leaf), offers a radical
change in the way tandem (multi-step) catalysis by enzyme cascades is studied and …
change in the way tandem (multi-step) catalysis by enzyme cascades is studied and …
Electrode reaction routes analyses of modified Ni-BCZY anode via distribution relaxation times: 1-D interpretation
Proton ceramic fuel cells (PCFCs) represent a promising avenue for energy conversion, with
their electrochemical performance heavily relying on the architecture of the cell particularly …
their electrochemical performance heavily relying on the architecture of the cell particularly …