Keyphrases
3D Bioprinting
28%
Active Catalyst
28%
Active Site mutant
14%
Adventitia
14%
Automated Microscopy
14%
Automated System
19%
Baeyer-Villiger
28%
Bioink
28%
Biomaterials
75%
Bioprinting
28%
Blood Vessels
16%
Blow-up Solutions
28%
Cardiomyocyte Culture
28%
Cartilage
18%
Cartilage Regeneration
28%
Catalyzed Reaction
28%
Cell Function
14%
Cell Layer
23%
Cell Migration
28%
Cell-based
70%
Cell-derived
14%
Codon
28%
Codon Redundancy
28%
Cold Adaptation
28%
Cold Shock Protein
14%
Cold-active Xylanase
28%
Cold-adapted
30%
Combinatorial Protein Library
28%
Culture Media
14%
Cyclohexanone
28%
Directed Evolution
77%
Drug Discovery
14%
Drug Toxicity
28%
Epoxides
28%
EpPCR
28%
Escherichia Coli
14%
Fine Balance
28%
Flexible Region
14%
Gelatin
60%
Gelatin Methacryloyl (GelMA)
61%
GelMA Hydrogel
21%
High Mechanical Strength
18%
High-resolution
28%
Human Coronary Artery
56%
Human Umbilical Vein Endothelial Cells (HUVECs)
23%
Hydrogel Layer
31%
Hydrogel Microstructures
28%
Immunological Barrier
28%
Injectable Scaffold
28%
Laboratory Evolution
14%
Layer-by-layer Technique
28%
Low Temperature
14%
Mechanical Properties
37%
Mechanical Remodeling
28%
Mechanical Strength
35%
Mesenchymal Stem Cells
14%
Methacrylamide
49%
Methacrylated Gelatin
15%
Microenvironment
23%
Microfluidic Channel
28%
Microfluidics
18%
Microstructured Devices
28%
Microtechnology
28%
Migration Behavior
28%
Migration Mechanism
14%
Molecular Dynamics Simulation
14%
Multi-material
28%
Osteoarthritis Chondrocyte
18%
Phenylacetone Monooxygenase
28%
Porous Scaffold
28%
Potency Assessment
28%
Predictive Models
14%
Printed Structures
14%
Psychrophiles
37%
Racemic
28%
Rapid Manufacturing
56%
Reinforced
56%
Salmon
23%
Saturation mutagenesis
56%
Screening Effort
28%
Single-cell Migration
28%
Soluble Epoxide Hydrolase
28%
Stem Cell Development
28%
Stem Cell Potency
28%
Stem Cell Research
28%
Stem Cells
18%
Stress-strain Curve
28%
Structural Configuration
19%
Structural Stability
14%
Technical Barriers
28%
Thermal Stability
28%
Three-dimensional (3D)
28%
Tissue Engineering
43%
Tissue Model
28%
Toxicity Analysis
28%
Tropoelastin
28%
Tunable Hydrogels
28%
Vascular Graft
62%
Vascular Tissue
28%
ε-Caprolactone (ε-CL)
28%
Engineering
Activation Energy
9%
Additive Manufacture
5%
Alginate
14%
Automated System
19%
Automated Technology
5%
Bioactivity
5%
Biocatalysis
14%
Biofabrication
9%
Biomimetics
23%
Biomolecule
9%
Biopolymer
14%
Bioprocessing
14%
Cardiomyocytes
28%
Cavity
5%
Cell Encapsulation
9%
Computer Simulation
14%
Dependent Cell
9%
Derived Cell
5%
Diameter Vascular Graft
5%
Dimensional Scaffold
9%
Engineered Blood Vessel
9%
Enzymatic Activity
14%
Enzymatic Degradation
9%
Enzymatic Hydrolysis
9%
Fits and Tolerances
18%
Fluid Viscosity
14%
Gas Fuel Manufacture
14%
Gelation
9%
Glycosaminoglycan
14%
Grafts
56%
Hemocompatibility
5%
High Resolution
28%
Hydrogel
100%
Increasing Demand
9%
Individual Layer
14%
Injectable Hydrogel
14%
Layer Approach
28%
Limiting Aspect
9%
Low Energy Cost
14%
Low-Temperature
28%
Material Composition
14%
Matrix Component
14%
Mechanical Response
5%
Microchannel
28%
Microfabrication
5%
Microfluidic Channel
28%
Microtechnology
28%
Middle Layer
5%
Mm Diameter
14%
Model System
9%
Molecular Mobility
9%
Nanofiber
5%
Native Artery
5%
One Step
28%
Outer Layer
5%
Polydimethylsiloxane
7%
Porosity
28%
Printed Cell
18%
Printed Structure
18%
Protein Engineering
14%
Regenerative Medicine
5%
Resolution 3d Printing
9%
Rod
28%
Spatial Location
14%
Stem Cell
28%
Structural Configuration
19%
Structural Element
14%
Support Cell
9%
Three Dimensional Printing
9%
Tissue Regeneration
45%