Keyphrases
In Situ
100%
Heterojunction Interface
100%
Self-sacrifice
100%
Photocatalytic Degradation
100%
Gaseous HCHO
100%
Insulator-based
100%
Graphitic Carbon Nitride (g-CN)
33%
Photocatalyst
33%
Copyright
33%
Photoluminescence
33%
Photocatalytic Oxidation
33%
Air Cleaning
33%
High-resolution Transmission Electron Microscopy (HRTEM)
33%
Density Functional Calculations
33%
XPS Analysis
33%
Air Pollutants
33%
Electron Spin Resonance
33%
Heterostructure
33%
Light Irradiation
33%
Simulated Sunlight
33%
Degradation Rate
33%
Catalyst Surface
33%
Reactive Oxygen Species
33%
FTIR Analysis
33%
Temperature Programmed Desorption
33%
XRD Analysis
33%
Hydrothermal Strategy
33%
Heterojunction Surface
33%
Oxygen Vacancy
33%
Calculation Results
33%
Difference Distribution
33%
Charge Difference
33%
Continuous Flow Reactor
33%
Photocarrier Separation
33%
Chemisorption Effect
33%
Distribution Simulation
33%
Chemistry
Photocatalytic
100%
Formaldehyde
100%
Photoluminescence
50%
Density Functional Theory
50%
Light Irradiation
50%
Photocatalytic Oxidation
50%
X-Ray Diffraction
50%
High-Resolution Transmission Electron Microscopy
50%
Electron Spin
50%
Air Pollutant
50%
Desorption
50%
Degradation Rate
50%
Chemisorption
50%
Electrochemistry
50%
Oxygen Vacancy
50%
Reactive Oxygen Species
50%
Material Science
Heterojunction
100%
Photoluminescence
25%
Density
25%
Oxidation Reaction
25%
X-Ray Diffraction
25%
Photocatalysts
25%
High-Resolution Transmission Electron Microscopy
25%
Desorption
25%
Electron Paramagnetic Resonance Spectroscopy
25%
Chemisorption
25%
Oxygen Vacancy
25%
Chemical Engineering
Formaldehyde
100%
Chemisorption
50%
Temperature Programmed Desorption
50%