INIS
acetates
100%
porous materials
100%
carbon dioxide
100%
electrodes
100%
production
62%
electron transfer
50%
carbon
37%
performance
37%
electrons
25%
electricity
25%
indicators
25%
surface area
25%
biogas
25%
cost
25%
cathodes
25%
solids
25%
mixtures
12%
energy supplies
12%
fossils
12%
current density
12%
carriers
12%
energy
12%
electrophoresis
12%
nanostructures
12%
applications
12%
reduction
12%
efficiency
12%
reactors
12%
titration
12%
nanotubes
12%
reactor design
12%
optimization
12%
layers
12%
volume
12%
synthesis
12%
chemical vapor deposition
12%
honeycomb structures
12%
catalysts
12%
sensors
12%
loading
12%
microorganisms
12%
deposition
12%
Engineering
Microbial
100%
Porous Electrode
100%
High Rate
100%
Biofilm Development
33%
Production Rate
33%
Performance Indicator
33%
Optimization
16%
High Surface Area
16%
Product Formation
16%
Sensor
16%
Energy Carrier
16%
Reactor
16%
Conductive
16%
Life Application
16%
Mechanisms
16%
Volume Ratio
16%
Characteristics
16%
Nanotube
16%
Development
16%
Density
16%
Real Life
16%
Renewables
16%
Chemical Production
16%
Nanomaterial
16%
Reduction
16%
Energy Engineering
16%
Material Science
Electrode
100%
Carbon Dioxide
100%
Biofilms
75%
Electron Transfer
50%
Surface Area
25%
Chemical Vapor Deposition
12%
Density
12%
Cathode
12%
Cathode Material
12%
Catalyst
12%
Nanocrystalline Material
12%
Honeycomb Structure
12%
Electrophoretic Deposition
12%
Chemical Engineering
Hierarchical Porous
100%
Carbon Dioxide
100%
Carbon
100%
Biogas
66%
Nanotube
33%