Engineering & Materials Science
Electrospinning
100%
Sol-gels
96%
Nanofibers
96%
Cerium oxide
93%
Composite materials
42%
Fibers
28%
Fluorspar
27%
Thermodynamic stability
16%
Adsorption
15%
Acids
14%
Electron energy loss spectroscopy
14%
Oxides
14%
Inorganic polymers
13%
Pyridine
13%
High resolution transmission electron microscopy
13%
Powders
13%
Oxygen
13%
Temperature programmed desorption
12%
Infrared spectroscopy
11%
Electron diffraction
10%
Oxidation-Reduction
10%
Calcination
10%
Nitrates
10%
X ray photoelectron spectroscopy
10%
Surface structure
9%
Thermogravimetric analysis
9%
Crystalline materials
8%
Ethanol
8%
X ray diffraction
8%
Molecules
8%
Salts
7%
Oxidation
7%
Scanning electron microscopy
6%
Fabrication
6%
Polymers
6%
Chemical analysis
5%
Metals
5%
Water
4%
Electric potential
4%
Temperature
3%
Chemical Compounds
Nanofiber
63%
Composite Material
36%
Poly(vinylpyrrolidone)
29%
Fiber
26%
Fluorite
19%
Inorganic Nitrate Salt
16%
Cubic Space Group
13%
Thermal Stability
10%
Selected Area Electron Diffraction
9%
Inert Atmosphere
9%
Reducibility
9%
Surface Composition
8%
Adsorption
8%
Dioxygen
7%
Lewis Acid
7%
Calcination
6%
Metal Oxide
6%
Desorption
6%
Voltage
5%
Thermogravimetric Analysis
5%
Elemental Analysis
5%
Pyridine
5%
X-Ray Photoelectron Spectroscopy
5%
IR Spectroscopy
5%
Ethanol
5%
Strength
5%
Chemical Transformation
5%
Probe
5%
Scanning Electron Microscopy
4%
Oxide
4%
Purity
4%
X-Ray Diffraction
4%
Reduction
3%
Oxidation Reaction
3%
Mixture
3%
Acid
2%
Molecule
2%