Engineering & Materials Science
Liquid crystals
100%
Hydrogen bonds
70%
Azobenzene
60%
Acids
40%
Crystalline materials
34%
Dimers
33%
Ionic conductivity
31%
Liquids
29%
Temperature
26%
Terpolymers
25%
Palm oil
22%
Copolymers
21%
Phase behavior
21%
X ray diffraction
20%
Fourier transform infrared spectroscopy
19%
Benzoic acid
19%
Electrolytes
19%
Spectroscopy
19%
Ionic liquids
18%
Salts
18%
Crystallinity
17%
Irradiation
17%
Photoisomerization
16%
Polymers
16%
Microporous materials
16%
Covalent bonds
14%
Hydrogen
14%
Liquid crystal polymers
14%
Characterization (materials science)
13%
Chemical analysis
13%
Membranes
12%
Optical microscopy
12%
Chemical activation
12%
Hot Temperature
12%
Phase transitions
11%
Ultraviolet radiation
10%
Thermodynamic stability
10%
Isomers
10%
Dielectric spectroscopy
10%
Differential scanning calorimetry
10%
Birefringence
10%
Molecular dynamics
10%
Water
9%
Ionic conduction
9%
Molar mass
9%
Pyridine
9%
Glycolipids
9%
Molecules
9%
Polarization
9%
Glycosides
8%
Chemical Compounds
Liquid Crystal
87%
Nematic Phase
38%
Hydrogen
32%
Fourier Transform Infrared Spectroscopy
29%
Ionic Conductivity
29%
Dielectric Response
29%
Azobenzene
28%
Conductivity
28%
Smectic Phase
25%
Optical Microscopy
22%
Phase Behavior
19%
Methacrylate
19%
Acid
18%
Mannoside
16%
Differential Scanning Calorimetry
16%
Copolymer
15%
Crystallinity
15%
Impedance Spectroscopy
15%
Ionic Liquid
13%
Thermogravimetric Analysis
13%
Thermal Stability
13%
X-Ray Diffraction
12%
Compound Mobility
11%
Birefringence
10%
Liquid
10%
Mixture
10%
Light Irradiation
10%
Photoisomerization
10%
Hydrogen Bond
10%
Application
9%
Azobenzenes
9%
Dielectric Material
9%
Covalent Bond
9%
Metathesis Reaction
9%
Flexibility
9%
Simulation
9%
Velocity
8%
Sulfonic Acid
8%
Glass Transition
8%
Trans Isomer
8%
Crystal System
7%
Quantum Yield
7%
Shape
7%
Energy
7%
Ultraviolet Irradiation
7%
Palm Kernel Oil
7%
Polarized Light
7%
Thymine
7%
Photochromism
7%
Benzoic Acid
7%
Physics & Astronomy
liquid crystals
48%
hydrogen
25%
liquids
23%
ion currents
22%
acids
21%
AMPS (satellite payload)
19%
conductivity
19%
salts
17%
dimers
14%
polymers
14%
synthesis
14%
energy storage
13%
electrolytes
12%
temperature
12%
infrared spectroscopy
11%
ionic crystals
11%
hydrogen bonds
10%
conduction
10%
spectroscopy
10%
diffraction
9%
x rays
9%
benzoic acid
8%
crystallinity
8%
energy conversion
8%
copolymers
8%
ethylene oxide
7%
glucosides
7%
birefringence
6%
spacers
6%
irradiation
6%
ions
6%
characterization
6%
heat measurement
5%
phase response
5%
microscopy
5%
pyridines
5%
monomers
5%
covalent bonds
5%
dynamic response
5%
nuclear magnetic resonance
5%
trimers
5%
random access memory
5%
organic materials
5%
chromophores
5%