Keyphrases
Multi-walled Carbon Nanotubes (MWCNTs)
88%
Nanoparticles
77%
Hydrogen Evolution Catalyst
44%
Hydrogen Evolution
44%
RuOx
33%
PtRu Catalyst
33%
Hydrogen Evolution Reaction
33%
High Performance
33%
Alkaline Media
33%
PtRu
33%
Buried Metal
33%
Reaction Stability
33%
Reaction Activity
33%
PdIn
33%
Bimetallic
33%
CO Poisoning
33%
Intermetallic Compounds
33%
Metal Oxide Electrocatalysts
33%
Nitrogen-doped Graphene Hydrogel
33%
Stretchable Supercapacitors
33%
High-performance Supercapacitors
33%
Hydrogen Oxidation Reaction
33%
Sodium Chloride
33%
Intermetallics
33%
Environmentally Friendly
33%
CO2 Electroreduction
33%
Electrocatalyst
27%
Material-based
27%
High Current Density
27%
Electrolyser
22%
Anion Exchange Membrane
22%
Noble Metals
22%
Nanowires
22%
Plasma Treatment
22%
CO2 Reduction Catalysts
16%
High Volumetric Capacitance
16%
Solid-state Materials
16%
Quasi-solid
16%
Power Energy
16%
Pd-based
16%
Faradaic
16%
Post-transitional
16%
Transitional Metals
16%
Bimetallic Nanoparticles
16%
Reduction Activity
16%
Sn-Bi
16%
Geometric Effect
16%
Carbon Nanotube Film
16%
Single-walled Carbon Nanotube Film
16%
Electrochemical Reactions
16%
INIS
hydrogen
100%
catalysts
95%
nanoparticles
80%
carbon nanotubes
80%
metals
75%
performance
65%
interfaces
41%
electrocatalysts
40%
doped materials
33%
supercapacitors
33%
intermetallic compounds
33%
nitrogen
33%
stability
33%
surfaces
33%
carbon dioxide
33%
graphene
33%
hydrogels
33%
oxides
33%
oxidation
33%
current density
27%
films
25%
plasma
25%
ion exchange
24%
membranes
24%
yields
23%
loading
21%
interactions
16%
values
16%
solids
16%
cathodes
16%
poisoning
16%
losses
16%
particles
16%
reduction
16%
sodium chlorides
16%
formates
16%
nanowires
13%
hydroxides
12%
layers
12%
electrochemistry
12%
dissolution
12%