Keyphrases
Water Splitting
100%
Overall Water Splitting
100%
Fe Sites
100%
High Efficiency
100%
Ni Active Sites
100%
Active Site Engineering
100%
Chemisorption
66%
Oxygen Evolution Reaction
66%
OER Performance
66%
HER Performance
66%
NiFeP
66%
Active Sites
33%
Effective Strategies
33%
Synergistic Effect
33%
Water Molecule
33%
Fe Content
33%
Fe Doping
33%
Tafel Slope
33%
Hydrogen Evolution
33%
Low Overpotential
33%
Highly Efficient Catalyst
33%
Surface Active
33%
Active Fe
33%
Bimetallic Phosphide
33%
Fe Dopant
33%
Electrocatalytic Water Splitting
33%
Catalyst Electrode
33%
Non-noble Metal Catalyst
33%
Water Electrolyzers
33%
Alkaline HER
33%
Highly Durable Catalyst
33%
Superior Stability
33%
Chemistry
Chemisorption
100%
stability
100%
electrode
100%
Doping Material
50%
Metal Catalyst
50%
Hydrogen
50%
Noble Metal
50%
Material Science
Water Splitting
100%
Surface (Surface Science)
60%
Oxygen Evolution
40%
Chemisorption
40%
Doping (Additives)
20%
Theoretical Calculation
20%
Hydrogen Evolution
20%
Chemical Engineering
Chemisorption
100%
Electrocatalytic Water Splitting
50%
Noble Metal Catalyst
50%