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Keyphrases
Heterostructure
100%
Interface Engineering
100%
Photocatalytic Hydrogen Evolution
100%
2D-C3N4
100%
NiFe-LDH
100%
High Efficiency
100%
Reaction Rate
50%
Effective Water
25%
Low Efficiency
25%
Hole Transport
25%
Active Surface
25%
Via Coupling
25%
Cocatalyst
25%
Charge Separation Efficiency
25%
Structure-directing Agent
25%
Visible Light Absorption
25%
NH4F
25%
Band Gap Structure
25%
Charge Separation
25%
Hydrogen Evolution Reaction
25%
Zero Emission
25%
Photoelectrochemical Water Splitting
25%
Separation Kinetics
25%
Excellent Long-term Stability
25%
Photocatalytic Hydrogen Evolution Reaction
25%
Light Absorption Capacity
25%
Type-II Interface
25%
Water-splitting Photocatalyst
25%
Sustainable Pathways
25%
Engineering Strategies
25%
C3N4
25%
Interface-engineered
25%
Engineering
Engineering
100%
Heterojunctions
100%
Hydrogen Evolution Reaction
66%
Separation Efficiency
33%
Active Surface
33%
Engineering Strategy
33%
Light Absorption
33%
Mols
33%
Term Stability
33%
Absorption Capacity
33%
Producing Hydrogen
33%
Photocatalytic Water Splitting
33%
Water Splitting
33%
Photocatalysts
33%
Band Gap
33%
Chemistry
Photocatalytic
100%
Hydrogen
100%
Layered Double Hydroxides
50%
formation
50%
Hole Transport
25%
Band Gap
25%
Co-Catalyst
25%
Structure-Directing Agent
25%
Photocatalyst
25%
Surface Area
25%
stability
25%
Visible Spectrum
25%
Material Science
Hydrogen Evolution
100%
Heterojunction
100%
Water Splitting
66%
Layered Double Hydroxides
66%
Photocatalysts
33%
Structure-Directing Agent
33%