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%