In-situ self-sacrificed fabrication of insulator-based SrTiO₃/SrCO₃ heterojunction interface for gaseous HCHO and NO photocatalytic degradation

Engineering & Materials Science

• Heterojunctions 100%
• Fabrication 56%
• Reactive oxygen species 45%
• Photoluminescence 41%
• Oxygen vacancies 39%
• Temperature programmed desorption 38%
• Chemisorption 38%
• Photocatalysts 38%
• Density functional theory 38%
• Electrochemistry 35%
• Paramagnetic resonance 34%
• X ray photoelectron spectroscopy 31%
• Air 28%
• Transmission electron microscopy 26%
• Irradiation 26%
• Electrons 25%
• Cleaning 23%
• Oxidation 22%
• Catalysts 21%

Physics & Astronomy

• heterojunctions 67%
• degradation 57%
• insulators 56%
• fabrication 46%
• electrochemistry 25%
• oxygen 23%
• air 22%
• chemisorption 21%
• contaminants 19%
• cleaning 18%
• catalysts 17%
• electron paramagnetic resonance 17%
• desorption 16%
• density functional theory 14%
• reactors 14%
• oxidation 14%
• photoluminescence 13%
• transmission electron microscopy 12%
• irradiation 12%
• electrons 8%
• simulation 7%
• temperature 5%

Chemical Compounds

• Air Pollutant 51%
• Photocatalytic Oxidation 44%
• Degradation Rate 37%
• Reactive Oxygen Metabolite 36%
• Electrochemistry 35%
• Chemisorption 34%
• Light Irradiation 33%
• Photoluminescence 29%
• Desorption 29%
• Surface 24%
• Simulation 24%
• Density Functional Theory 23%
• Electron Particle 20%
• Dioxygen 18%
• Catalyst 15%