Material Science
Shrinkage
100%
Polyamide
83%
Coating
66%
Epoxy
66%
Permittivity
66%
Materials
61%
Temperature
58%
Resin
55%
Polymers
52%
Density
40%
Disinfectant
33%
Electronics
33%
Aluminum Nitride
33%
Thermal Conductivity
33%
Optical Lithography
33%
Micelle
33%
Delamination
33%
Glass Transition Temperature
33%
Dielectric Property
33%
Adhesion
33%
Elasticity
33%
Swelling
33%
Cable
33%
Gel
33%
Polyethylene
33%
Copolymerization
27%
Microparticle
27%
Copolymer
25%
Nanocomposites
23%
Petroleum Product
22%
Composite Material
22%
Filler
21%
Nonthermal Microwave Effect
16%
Arginine
16%
Peptide
16%
Amino Acids
16%
Surface Functionalization
16%
Polymer Network
13%
Polymerization
13%
Electronic Material
11%
Dielectric Material
11%
Boron Nitride
11%
Liquid
11%
Electrical Conductivity
8%
Conductivity
8%
Cationic Ring-Opening Polymerization
8%
Covalent Bond
6%
Materials Property
6%
Silica Nanoparticle
5%
Blending
5%
Chemical Engineering
Monomer
93%
Ring Opening Polymerization
66%
Cationic Ring-Opening Polymerization
66%
Polymerization
38%
Polymer
33%
Superconducting Transition Temperature
33%
Ester
33%
Polyester
33%
Polyamide
33%
Olefin
33%
Photopolymerization
33%
Nanocomposite
33%
Epoxy Resin
33%
Polyethylene
33%
Gelation
16%
Nanoparticle
13%
Cationic Photopolymerization
11%
Oxygen
11%
Chemistry
Ring Opening Polymerisation
33%
Polyester
33%
Oxazoline
33%
Polyamide
33%
Hydrodynamic Radius
11%
Composite Material
11%
Microwave Assisted Synthesis
9%