Keyphrases
Polycaprolactone
100%
Tissue Engineering Applications
100%
Micro-nano
100%
Polyester
100%
Copolymer
87%
Poly(L-lactide)
50%
Proteinase K
25%
Lipase
25%
Homopolymer
25%
Degradation Rate
25%
Fibrous Morphology
25%
Electrospinnability
25%
High Specificity
12%
Commercially Available
12%
Fibroblasts
12%
Morphological Changes
12%
Crystallinity
12%
3T3 Mouse Fibroblast
12%
High Content
12%
Mass Loss
12%
Degradation Process
12%
Molar Mass
12%
Electrospinning
12%
Fiber Diameter
12%
Electrospun
12%
Fibroblast Proliferation
12%
Fibrous Materials
12%
Electrospinning Technique
12%
Polylactide
12%
Chemical Characterization
12%
Cytocompatible
12%
Surface Erosion
12%
Erosion Degradation
12%
Degradation Effect
12%
Polymeric Solutions
12%
Simulated Conditions
12%
Degradation Degree
12%
Fibroblast Adhesion
12%
Engineering
Tissue Regeneration
100%
Molecular Mass
100%
Molecular Weight
100%
Engineering Application
100%
Degradation Rate
50%
Homopolymer
50%
Crystallinity
25%
Mouse Fibroblast
25%
Mass Loss
25%
Degradation Process
25%
Molar Mass
25%
Fiber Diameter
25%
Electrospinning Process
25%
Electrospinning
25%
Electrospun
25%
Chemical Characterization
25%
Polymeric Solution
25%
Surface Erosion
25%
Material Science
Copolymer
100%
Polyester
100%
Fibroblast
42%
Electrospinning
28%
Lipase
28%
Surface (Surface Science)
14%
Polylactide
14%
Fibrous Material
14%
Chemical Engineering
Polycaprolactone
100%
Polyester
100%
Copolymer
87%
Pharmacology, Toxicology and Pharmaceutical Science
Polycaprolactone
100%
Copolymer
87%
Proteinase K
25%
Pancreatic Lipase
25%
Polylactide
12%