Engineering & Materials Science
Hydrogels
100%
Calcium phosphate
81%
Stem cells
80%
Tissue engineering
63%
Endothelial cells
58%
Polyethylene glycols
52%
Proteins
47%
Calcium
45%
Fasteners
44%
Polycaprolactone
43%
Cements
42%
Cells
42%
Tissue
38%
Polypeptides
36%
Hydroxyapatite
36%
Ligands
34%
Peroxides
33%
Hydration
27%
Antibodies
26%
Agglomeration
24%
Hardening
23%
Substrates
22%
Peptides
22%
Crystals
22%
Phosphates
21%
Cell growth
21%
Oxygen
20%
Gels
18%
Hydrolysis
18%
Thermoplastic elastomers
18%
Muscle
18%
Seed
17%
Scaffolds
17%
Elastomers
17%
Microspheres
17%
Shear stress
16%
Polymers
15%
Compressive strength
14%
Dissolution
14%
Microfluidics
13%
Polyesters
13%
Molecules
13%
Erosion
12%
Degradation
12%
Relaxation
11%
Thermoplastics
11%
Addition reactions
11%
Tuning
9%
Composting
9%
Chemical Compounds
Hydrogel
82%
Leucine
67%
Calcium Phosphate
58%
Calcium Peroxide
44%
Protein
29%
Cell Viability
28%
Gel
28%
Shear Stress
26%
Force
25%
Elastomer
25%
Heterodimerization
24%
Fibrin
23%
Poly(ethylene Glycol)
22%
pH Value
21%
Polypeptide
19%
Compression Strength
18%
Sebacate
17%
Ligand
16%
Environment
14%
Ionic Strength
13%
Molecule
13%
Heparin
13%
Phosphate
12%
Biological Marker
11%
Polyester
11%
Microsphere
11%
Disorder
11%
Glycerol
11%
Coil
10%
Dissolution
9%
Flow
9%
Porosity
9%
Calcium(0)
9%
Strain
9%
Material Degradation Process
9%
Hydrolysis
9%
Light Scattering
9%
Storage Modulus
9%
Application
8%
Time
8%
Charge Density
8%
Permeability
7%
Surface
7%
Photon Correlation Spectroscopy
7%
Chromophore
7%
Phosphate Salt
6%
Dioxygen
6%
Elongation at Break
6%
Drug
6%
Medicine & Life Sciences
Skeletal Muscle Fibers
33%
Pluripotent Stem Cells
31%
Human Embryonic Stem Cells
31%
Hydrogels
27%
calcium peroxide
24%
Skeletal Muscle
22%
Microgels
21%
Ligands
18%
Durapatite
16%
Vascular Remodeling
15%
Duchenne Muscular Dystrophy
15%
calcium phosphate
14%
Seeds
13%
Morphogenesis
12%
Embryonic Development
11%
amorphous calcium phosphate
11%
Tissue Engineering
10%
Muscles
9%
Cell Survival
9%
Induced Pluripotent Stem Cells
9%
Fibroblasts
9%
Biomarkers
9%
Kinetics
9%
Integrins
9%
Oxygen
9%
Porosity
8%
Endocardium
8%
Myosin Heavy Chains
8%
Cell Movement
7%
Membranes
7%
Dystrophin-Associated Protein Complex
7%
Compressive Strength
6%
Skeletal Muscle Myosins
6%
Growth
6%
Leucine Zippers
6%
Cardiovascular System
6%
Cell Differentiation
6%
divinyl sulfone
5%
Sulfhydryl Compounds
5%
In Vitro Techniques
5%
Protein Isoforms
5%
Human Umbilical Vein Endothelial Cells
5%
matrigel
5%
Extracellular Matrix
5%
Dystrophin
5%
Fibrin
5%
Embryonic Structures
5%
Peptides
5%