Engineering & Materials Science
Hydrogels
100%
Polyethylene glycols
62%
Cartilage
53%
Hyaluronic acid
47%
Dextran
37%
Block copolymers
34%
Tissue engineering
33%
Stars
30%
Copolymers
24%
Crosslinking
24%
Polymers
21%
Amides
20%
Mechanical properties
19%
Gelation
19%
Electrospinning
17%
Esters
17%
Scaffolds
16%
Proteins
16%
Gels
16%
Fibers
15%
Degradation
14%
Yarn
14%
Stem cells
14%
Platelets
13%
Collagen
13%
Biomaterials
12%
Intercellular Signaling Peptides and Proteins
12%
Polysaccharides
12%
Ring opening polymerization
12%
Tissue
11%
Repair
11%
Enzymes
10%
Ligands
10%
Crystals
10%
Ethers
9%
Nanoparticles
9%
Elastic moduli
8%
Thermodynamic properties
8%
Nuclear magnetic resonance
8%
Amino acids
8%
Adhesives
8%
Polymerization
8%
Hydrogen bonds
7%
Heparin
7%
Cytotoxicity
6%
Molecular weight
6%
Micellization
6%
Thermoplastic elastomers
6%
Water
6%
Metals
6%
Chemistry
Hydrogel
71%
Poly(ethylene Glycol)
25%
Block Copolymer
21%
Growth Factor
16%
Crosslinking
16%
Hyaluronic Acid
16%
Tyramine
16%
Copolymer
15%
Gel
14%
Fiber
14%
Ring Opening Polymerisation
12%
Collagen
10%
Dextran
10%
Biomaterial
10%
Amide
10%
Ester
9%
Degradation Property
9%
Application
8%
Polyether
8%
Terpyridines
7%
Michael Addition
7%
Heparin
7%
Polysaccharide
7%
Cyclic Carbonate Ester
6%
Ethylene Glycol
6%
Glycine
6%
Acrylate
6%
Fibrous Crystal
6%
Biocompatible Material
5%
Drug
5%
Carbonate
5%
Protein
5%
Enantiomer
5%
Storage Modulus
5%
Nanoparticle
5%
Medicine & Life Sciences
Hydrogels
55%
Cartilage
30%
Tissue Engineering
24%
Tyramine
22%
Dextrans
22%
Hyaluronic Acid
19%
Chondrocytes
17%
poly(lactide)
17%
Polymers
16%
Ethylene Glycol
14%
Injections
12%
Chondrogenesis
9%
Intercellular Signaling Peptides and Proteins
9%
dilactide
9%
Nanoparticles
8%
Blood Platelets
8%
Biocompatible Materials
7%
Collagen
6%
Polymerization
6%
Heparin
6%
Gels
6%
Microgels
5%
Smart Materials
5%
Nanogels
5%
Fibrillins
5%
Mesenchymal Stem Cells
5%
Hot Temperature
5%
Collagen Type I
5%
Atomic Force Microscopy
5%
Microfibrils
5%
Hydroxyl Radical
5%
