Keyphrases
Direct Laser Writing
100%
Cell Growth
100%
Neuronal Cells
100%
Photoresist
100%
Polycaprolactone
100%
Growth Guidance
100%
Microstructure
80%
Photocrosslinking
60%
Neurite
60%
Poly(ethylene glycol) Diacrylate (PEGDA)
60%
Photoinitiator
60%
Human Pluripotent Stem Cells (hPSCs)
60%
Fabrication Methods
40%
Ormocomp
40%
Stem Cell-derived
40%
Bovine Serum Albumin
40%
Scanning Speed
40%
Avidin
40%
Nd-YAG Laser
40%
Cell Culture Platform
40%
3D Cells
40%
Cell Culture Experiment
40%
Neuronal Network
20%
Laser Machining
20%
Highly Ordered
20%
Picosecond
20%
Two-photon Absorption
20%
Cell Culture
20%
Commercially Available
20%
Two-photon Polymerization
20%
Laser Power
20%
Polymer-ceramic Composites
20%
Irgacure 2959
20%
Processing Parameters
20%
Complex Structure
20%
Overhang
20%
Human Neuronal Cells
20%
Microstructure-based
20%
Nd-YAG
20%
Size Scaling
20%
Extracellular Matrix
20%
Macromolecules
20%
Bioactivity
20%
Cell Environment
20%
Astrocytes
20%
In Vitro Cell Culture
20%
Laser Scanning
20%
Surface Pattern
20%
Fabrication Conditions
20%
Protein Concentration
20%
Confinement Structures
20%
Chemical Cues
20%
3D Network
20%
Network Formation
20%
Cell Networks
20%
Computer-assisted
20%
Cell Culture Study
20%
Cell Source
20%
Photosensitizer
20%
Photosensitive Materials
20%
Oligodendrocyte
20%
Hydrogel Matrix
20%
Guidance Cues
20%
3D Culture
20%
Cell Culture Model
20%
Liquid State
20%
3D Microstructure
20%
Ordered Geometry
20%
Neurite Alignment
20%
Neural Function
20%
Derived Peptide
20%
Hybrid Polymer
20%
Radical Chain
20%
Topographical Guidance Cues
20%
Protein Pattern
20%
Tortuous Channel
20%
3D Confinement
20%
Guidance Pattern
20%
Chain-growth Polymerization
20%
Unsaturated Monomer
20%
Flavin Adenine Dinucleotide
20%
Laser Intensity
20%
Protein Cross-linking
20%
Internal Wall
20%
Topographical Cues
20%
Sapphire Laser
20%
Long-term Cell Culture
20%
Microscale Pattern
20%
Engineering
Caprolactone
100%
Multiphoton Lithography
100%
Photoresist
100%
Oligomer
100%
Human Pluripotent Stem Cell
40%
Microscale
40%
Fabrication Technique
40%
Polymerization
40%
Scanning Speed
40%
Internals
20%
Applicability
20%
Picosecond
20%
Processability
20%
Complex Structure
20%
Processing Parameter
20%
Photon Polymerization
20%
Single Neuron
20%
Cell Network
20%
Hydrogel
20%
Monomer Molecule
20%
Feature Size
20%
Size Scale
20%
Average Laser Power
20%
Cell Source
20%
Laser Intensity
20%
Sapphire Laser
20%
Protein Concentration
20%
Chain Growth Polymerization
20%
Bioactivity
20%
Material Science
Polymerization
100%
Polyethylene Glycol
100%
Cell Growth
100%
Stem Cell
66%
Hydrogel
33%
Sapphire
33%
Photosensitizer
33%
Chain Growth Polymerization
33%
Surface (Surface Science)
33%
Liquid
33%
Chemical Engineering
Oligomer
100%
Polymerization
60%
Polyethylene Glycol
60%
Hydrogel
20%
Chain Growth Polymerization
20%