INIS
applications
100%
tissues
100%
engineering
100%
hydrogels
100%
matrices
60%
chemistry
60%
size
40%
catalysts
40%
porosity
40%
images
20%
specificity
20%
photons
20%
fluorescence
20%
microscopy
20%
animals
20%
gases
20%
origin
20%
toxicity
20%
muscles
20%
proteins
20%
range
20%
performance
20%
salts
20%
modifications
20%
cross-linking
20%
regeneration
20%
elasticity
20%
proliferation
20%
deposits
20%
mechanical properties
20%
scanning (electron)
20%
leaching
20%
temperature (transition)
20%
Keyphrases
Tissue Engineering Applications
100%
Macroporous
100%
Elastin-like
100%
Recombinamer
87%
Elastin
25%
Click Chemistry Reaction
25%
Bioorthogonal Chemistry
25%
Extracellular Matrix
12%
Bioactive
12%
Size-dependent Properties
12%
Cell Infiltration
12%
Porosity
12%
Thrombogenicity
12%
Tissue Regeneration
12%
Bioactivity
12%
Tissue Engineering
12%
Mechanical Properties
12%
Smooth muscle Cells
12%
Biomedical Field
12%
Pore Size
12%
Extracellular Matrix Deposition
12%
Extracellular Matrix Protein 1 (ECM1)
12%
Strategies to Overcome
12%
Native Tissue
12%
Two-photon Microscopy
12%
Microscopic Image
12%
Biofunctionalization
12%
Rheological Measurements
12%
Chemical Modification
12%
Genetic Engineering
12%
Elastic Behavior
12%
Click Chemistry
12%
Macroporous Structure
12%
Macroporous Hydrogel
12%
Inherent Properties
12%
Controlled Composition
12%
Elastic Performance
12%
Gas Foaming
12%
Foaming Process
12%
Animal Origin
12%
Salt Leaching
12%
Inverse Temperature Transition
12%
Interconnected Porosity
12%
Fluorescence Scanning
12%
Nonhuman Animals
12%
Multi-connectivity
12%
Bioengineering Materials
12%
Engineering
Hydrogel
100%
Engineering Application
100%
Tissue Regeneration
100%
Porosity
66%
Applicability
33%
Native Tissue
33%
Photon Microscopy
33%
Promising Candidate
33%
Biomedical Field
33%
Interconnectivity
33%
Gas Foaming
33%
Bioengineering
33%
Phase Composition
33%
Bioactivity
33%
Material Science
Hydrogel
100%
Elastin
100%
Two-Photon Microscopy
10%
Pore Size
10%
Elastic Behavior
10%
Phase Composition
10%