Selective photocatalytic decomposition of nitrobenzene using surface modified TiO₂ nanoparticles

Engineering & Materials Science

• Nitrobenzene 100%
• TiO2 nanoparticles 83%
• Phenols 73%
• Arginine 61%
• Decomposition 41%
• High performance liquid chromatography 36%
• Degradation 24%
• Byproducts 24%
• X ray absorption spectroscopy 22%
• Adsorption 22%
• Photodegradation 18%
• Infrared absorption 18%
• Photocatalysis 18%
• Chelation 17%
• Photocatalysts 17%
• Colloids 16%
• Paramagnetic resonance 15%
• Mass spectrometry 14%
• Gas chromatography 14%
• Spectroscopy 12%
• Impurities 11%
• Lighting 9%
• Monitoring 6%

Physics & Astronomy

• nitrobenzenes 80%
• phenols 74%
• decomposition 44%
• nanoparticles 39%
• liquid chromatography 31%
• adsorption 17%
• gas chromatography 14%
• contaminants 11%
• infrared absorption 11%
• colloids 11%
• mass spectroscopy 11%
• selectivity 10%
• absorption spectroscopy 10%
• electron paramagnetic resonance 10%
• performance 10%
• illumination 8%
• spectroscopy 6%
• x rays 5%
• interactions 4%

Chemical Compounds

• Nitrobenzene 60%
• Decomposition 37%
• Phenol 35%
• Nanoparticle 29%
• Byproduct 19%
• Surface 18%
• Liquid Chromatography 14%
• X Ray Absorption Spectroscopy 10%
• Adsorption 9%
• Chelating Agent 9%
• Photocatalysis 9%
• Colloid 9%
• Photodegradation 8%
• Illumination 8%
• EPR Spectroscopy 8%
• Gas Chromatography Mass Spectrometry (GCMS) 7%
• Modification 5%