Keyphrases
3D Cell Culture
75%
Au Nanoparticles (AuNPs)
56%
Bioactivity
18%
Biocompatibility
18%
Biomaterials
15%
Biosurfactant
75%
Bone Tissue Engineering
75%
Bone Tissue Regeneration
18%
Cartilage Tissue
18%
Cell Attachment
48%
Cell Differentiation
18%
Cell Proliferation
18%
Composite Scaffold
18%
Emulsifying Properties
75%
Emulsion Template
75%
Flexible Porous Material
15%
Flow Migration
15%
Gold Nanoparticle Composite
75%
Gold Nanoparticles
37%
Highly Porous
18%
Human Organs
15%
Hyaluronic Acid
75%
Hydrophilic Polymers
18%
Hydrophilicity
18%
In Vitro Model
15%
Infiltration
15%
Macroporous Materials
18%
Mass Transfer
15%
Medium Internal Phase Emulsion
75%
Microphysiological Systems
75%
Oil-in-water Emulsion
37%
Poly(ethylene glycol) Diacrylate (PEGDA)
75%
Polymerized
75%
Polymerized High Internal Phase Emulsions
18%
Pore Size
45%
Porous Biomaterials
30%
Porous Materials
75%
Porous Scaffold
18%
Promising Applications
18%
QS-21
27%
Regeneration
15%
Regenerative Medicine
15%
Rheological Properties
15%
Saponins
75%
Size Control
18%
Supporting Cells
18%
Surface Plasmon Resonance
18%
Surface-active Properties
75%
Tissue Engineering
37%
Tissue Ingrowth
15%
Engineering
Bioactivity
18%
Bone Tissue Engineering
75%
Composite Scaffold
18%
Controllability
18%
Fabricated Scaffold
24%
Gold Nanoparticle
56%
Gold Nanoparticles
75%
Good Morphology
24%
Hydrophilicity
18%
Hydrophobic
18%
Internal Phase
100%
Macropore
24%
Mechanical Structure
24%
Oxygen Transfer
24%
Porosity
75%
Porous Scaffold
18%
Porous Structure
24%
Primary Function
24%
Regenerative Medicine
24%
Support Cell
18%
Surface Plasmon
18%
System Technology
24%
Tissue Regeneration
37%
Pharmacology, Toxicology and Pharmaceutical Science
Amphiphile
6%
Biological Activity
6%
Biosurfactant
75%
Cosmetics
12%
Critical Micelle Concentration
6%
Hydrophilic-Lipophilic Balance
6%
Nanoemulsion
12%
Quillaja
6%
Quillaja Saponin
12%
Saponaria
6%
Saponin
75%
Side Effect
6%
Surface Activity
75%
Surfactant
12%