Engineering & Materials Science
Polymers
100%
Molecular weight
73%
Copolymers
70%
Block copolymers
68%
Hydrogen bonds
63%
Monomers
60%
Polymerization
59%
Ionic liquids
40%
3D printers
39%
Oligomers
38%
Free radical polymerization
35%
Polyesters
34%
Homopolymerization
32%
Photopolymerization
30%
Ionomers
25%
Nuclear magnetic resonance spectroscopy
25%
Glass transition
25%
Anionic polymerization
24%
Superconducting transition temperature
23%
Ethers
22%
Electrospinning
22%
Dynamic mechanical analysis
22%
Polyurethanes
22%
Living polymerization
21%
Stars
21%
Polystyrenes
20%
Styrene
20%
Urea
20%
Esters
19%
Acids
19%
Ions
19%
Copolymerization
19%
Polyelectrolytes
19%
Microphase separation
18%
Temperature
17%
Polyethylene glycols
17%
X ray scattering
16%
Chemical analysis
15%
Macromolecules
15%
Acrylics
15%
Polycondensation
15%
Ionic conductivity
14%
Negative ions
14%
Viscosity
14%
Scaffolds
13%
Mechanical properties
13%
Molar mass
13%
Crystalline materials
13%
Differential scanning calorimetry
13%
Membranes
12%
Chemical Compounds
Copolymer
36%
Block Copolymer
35%
Weight
35%
Monomer
33%
Polyester
31%
Methacrylate
26%
Oligomer
24%
Additive
22%
Polymerization Reaction
21%
Block Like Crystal
21%
Radical Polimerization
20%
Ionic Liquid
20%
Photopolymerization
20%
Acrylate
20%
Glass Transition Temperature
19%
Hydrogen
19%
Single Monomer Polymer
18%
Phosphonium
17%
Ionomer
17%
Thermomechanical Property
16%
Elastomer
14%
Application
14%
Rheology
13%
Ionic Polymer
12%
Polyether
12%
Copolymerization
12%
Fiber
11%
Tissue Scaffold
11%
1H NMR Spectroscopy
11%
Step Growth Polymerization
11%
Differential Scanning Calorimetry
10%
Urethane
10%
Liquid Film
10%
Polycondensation
10%
Urea
10%
Polyimide Macromolecule
9%
Glycol
9%
Molar Mass Distribution
9%
Michael Addition
9%
Styrene
9%
Molar Mass
9%
Ammonium
9%
Ester
9%
Thermal Stability
9%
Siloxane
9%
Macromolecule
9%
Poly(ethylene Glycol)
8%
Length
8%
Imide
8%
