Engineering & Materials Science
Hydrogels
100%
Polymers
51%
Copolymers
42%
Contact lenses
38%
Monomers
30%
Molecular weight
24%
Polymerization
22%
Esters
21%
Ring opening polymerization
20%
Degradation
19%
Water content
18%
Acids
18%
Biomedical equipment
17%
Membranes
17%
Water
16%
Polyurethanes
14%
Lenses
13%
Chemical analysis
11%
Polycaprolactone
11%
Biomaterials
11%
Interpenetrating polymer networks
11%
Biodegradable polymers
10%
Pyrolysis
10%
Polymer matrix
9%
Styrene
9%
Surface properties
8%
Fibers
8%
Block copolymers
7%
Permeation
7%
Microencapsulation
7%
Wear of materials
7%
Oxygen
7%
Physicochemical properties
7%
Cartilage
6%
Glucose oxidase
6%
Lactic acid
6%
Temperature
6%
Polyesters
6%
Gels
6%
Cellulose
6%
Mechanical properties
6%
Lipids
5%
Polysaccharides
5%
Photopolymerization
5%
Phospholipids
5%
Biomimetics
5%
Ions
5%
Differential scanning calorimetry
5%
Hydrophilicity
5%
Tin
5%
Medicine & Life Sciences
Polymers
39%
Hydrogels
38%
Contact Lenses
32%
Lenses
30%
Hydroxybutyrates
27%
Tears
19%
Equipment and Supplies
13%
Lipids
13%
Eye
13%
Water
12%
Polymerization
11%
Molecular Weight
8%
Biocompatible Materials
7%
Membranes
7%
Biomimetics
7%
Surface Properties
6%
Phospholipids
6%
bromoform
6%
Proteins
6%
Bandages
6%
Articular Cartilage
5%
Eye Proteins
5%
Temperature
5%
poly(lactide)
5%
Porosity
5%
maleic acid
5%
Styrene
5%
tear proteins
5%
Chemistry
Hydrogel
54%
Copolymer
24%
Ocular
19%
Polymerization Reaction
16%
Macro Porosity
16%
Permeability
15%
Monomer
13%
Poly(hydroxybutyrate)
11%
Weight
11%
Application
11%
Acid
10%
Wear
10%
Surface
10%
Fiber
8%
Liquid Film
7%
Polyester
7%
2-Hydroxyethyl Methacrylate
7%
Styrene
7%
Ring Opening Polymerisation
6%
Environment
6%
Biomaterial
6%
Lubrication
6%
Drug
6%
Differential Scanning Calorimetry
5%
Porosity
5%
Polymer Network
5%
Butyrate
5%
Degradation Rate
5%