Dark- and photoreactions of ethanol and acetaldehyde over TiO2/carbon molecular sieve fibers

Engineering & Materials Science

• Acetaldehyde 100%
• Molecular sieves 93%
• Ethanol 64%
• Carbon 48%
• Fibers 43%
• Temperature programmed desorption 41%
• Positive ions 34%
• Rate constants 22%
• X ray photoelectron spectroscopy 22%
• X ray diffraction 18%
• Blue shift 17%
• Nanopores 13%
• Diffraction patterns 13%
• Negative ions 12%
• Titanium dioxide 11%
• Sputtering 11%
• Formaldehyde 11%
• Butadiene 10%
• Desorption 10%
• Energy gap 10%
• Reaction rates 10%
• Atmospheric pressure 10%
• Transmission electron microscopy 9%
• Oxidation 8%
• Powders 7%
• Lighting 7%
• Temperature 3%

Physics & Astronomy

• acetaldehyde 92%
• absorbents 79%
• ethyl alcohol 63%
• carbon 42%
• fibers 35%
• cations 23%
• x rays 16%
• desorption 16%
• photoelectron spectroscopy 15%
• reflectance 12%
• formaldehyde 11%
• butadiene 10%
• anatase 9%
• blue shift 9%
• selectivity 8%
• anions 8%
• reaction kinetics 8%
• atmospheric pressure 8%
• diffraction patterns 7%
• dissociation 7%
• sputtering 7%
• illumination 6%
• oxidation 6%
• porosity 6%
• transmission electron microscopy 6%
• products 5%
• radii 5%
• shift 5%
• kinetics 5%
• temperature 5%
• profiles 4%
• diffraction 4%

Chemical Compounds

• Acetaldehyde 65%
• Ethanol 41%
• Fiber 41%
• Cation 10%
• Desorption 8%
• X-Ray Photoelectron Spectroscopy 8%
• Rate Constant 7%
• Reductive Coupling 7%
• UV/VIS Spectroscopy 7%
• Sputtering 6%
• Butadiene 6%
• X-Ray Diffraction 5%
• Illumination 5%
• Formaldehyde 5%
• Titanium Dioxide 4%
• Band Gap 4%
• Blue 4%
• Dissociation 4%
• Amorphous Material 4%
• Pore 3%
• Anion 3%
• Pressure 3%
• Reduction 2%
• Oxidation Reaction 2%
• Time 2%
• Surface 1%