Engineering & Materials Science
Chitosan
100%
Tissue engineering
88%
Urea
87%
Scaffolds
84%
Fibers
48%
Nuclear magnetic resonance
21%
Esters
19%
Polyurethanes
19%
Propionic acid
15%
Tissue regeneration
14%
Polycaprolactone
13%
Cytotoxicity
13%
Fibroblasts
12%
Fourier transform infrared spectroscopy
10%
X ray photoelectron spectroscopy
10%
Contact angle
9%
Water
9%
Crystalline materials
9%
Wetting
9%
X ray diffraction
8%
Molecules
8%
Elastic moduli
7%
Scanning electron microscopy
7%
Degradation
6%
Recovery
6%
Chemical analysis
5%
Physics & Astronomy
urethanes
97%
tissue engineering
91%
ureas
87%
fibers
39%
esters
20%
propionic acid
15%
resilience
12%
proton magnetic resonance
11%
fibroblasts
11%
water
10%
regeneration
9%
wettability
9%
tensile tests
9%
infrared spectroscopy
7%
x rays
7%
casts
7%
photoelectron spectroscopy
7%
recovery
7%
modulus of elasticity
7%
nuclear magnetic resonance
7%
degradation
6%
synthesis
6%
scanning electron microscopy
5%
evaluation
5%
cells
4%
molecules
4%
diffraction
4%
interactions
3%
Chemistry
Urethane
76%
Chitosan
58%
Urea
56%
Fiber
45%
Liquid Film
29%
Extender
21%
Ester
10%
Propionic Acid
9%
Young's Modulus
9%
Fibrous Crystal
8%
X-Ray Photoelectron Spectroscopy
6%
Surface
5%
Scanning Electron Microscopy
5%
Porosity
5%
Fourier Transform Infrared Spectroscopy
4%
X-Ray Diffraction
4%
Solvent
4%
Molecule
3%