INIS
comparative evaluations
100%
glucose
100%
oxygen
100%
fuel cells
100%
dehydrogenases
100%
anodes
100%
cathodes
100%
oxidases
100%
performance
42%
stability
42%
enzymes
28%
power
28%
voltage
28%
electrodes
28%
biofuels
28%
output
14%
surfaces
14%
production
14%
carbon
14%
reduction
14%
electronic equipment
14%
volume
14%
oxidation
14%
range
14%
benchmarks
14%
inks
14%
filters
14%
electron transfer
14%
power density
14%
redox reactions
14%
osmium complexes
14%
Keyphrases
Dehydrogenase
100%
Laccase
100%
Enzymatic Biofuel Cell
100%
Glucose Oxidase
100%
Aldose
100%
Cell Voltage
50%
Biofuel Cell
50%
High Stability
25%
Fuel Cell
25%
Mass Producible
25%
Further Development
25%
Redox Reaction
25%
Electrode Surface
25%
Cell Performance
25%
Fungal Laccase
25%
Biobattery
25%
Carbon Ink
25%
High Volume Production
25%
Glucose Oxidation
25%
Electron Transfer
25%
High Output Power
25%
Electrode Materials
25%
Filter Paper
25%
Maximum Power Density
25%
Implantable Electronics
25%
Portable Electronic Devices
25%
Conducting Carbon
25%
Catalytic Materials
25%
Fuel Cell Performance
25%
Oxygen Reduction
25%
Promising Direction
25%
Osmium Complex
25%
Material Science
Cathode
100%
Anode
100%
Glucose Oxidase
100%
Biofuel
50%
Density
25%
Oxidation Reaction
25%
Electron Transfer
25%
Surface (Surface Science)
25%
Redox Process
25%
Osmium
25%
Engineering
Fuel Cell
100%
Cell Voltage
40%
Biological Fuel Cell
40%
Electrode Surface
20%
High Volume Production
20%
Cell Performance
20%
Power Output
20%
Fuel Cell Performance
20%
Filter Paper
20%
Chemical Engineering
Maximum Power Density
100%