Engineering
Accident Prevention
25%
Application
100%
Cavity
25%
Chip Device
25%
Development
100%
Development Process
25%
Early Stage
25%
Experiments
25%
Fabrication
50%
Fabrication Method
25%
Fabrication Technique
25%
Feature Size
25%
Integration
25%
Longer Term
25%
Mechanisms
25%
Membrane
100%
Microchannel
25%
Microelectromechanical System
50%
Microenvironments
25%
Microstructure
100%
Models
25%
Monolithic Integration
100%
Polymers
100%
Porosity
50%
Realization
25%
Resistance Change
25%
Significant Contribution
25%
Smallest Feature
25%
Standardization
25%
Strain Gage
50%
Technological Advance
25%
Thickness
50%
Titania
25%
INIS
animals
12%
applications
100%
barriers
25%
cavities
12%
control
12%
devices
50%
drugs
50%
fabrication
50%
in vitro
25%
industry
12%
market
25%
medicine
12%
membranes
50%
microstructure
100%
modeling
12%
organs
100%
pharmaceuticals
25%
polymers
100%
porosity
25%
porous materials
50%
risks
12%
safety
12%
screening
37%
silicon
100%
size
25%
standardization
12%
strain gages
25%
strains
12%
thickness
25%
titanium
12%
tools
12%
topology
12%
toxicity
12%
Material Science
Biocompatibility
50%
Devices
100%
Membrane
100%
Microelectromechanical System
50%
Microstructure
100%
Polymers
100%
Pore Size
25%
Porosity
50%
Silicon
100%
Titanium
25%
Toxicity
25%
Chemical Engineering
Microelectromechanical System
100%
Polymer
100%
Silicon
100%
Titanium
50%
Keyphrases
Barrier Formation
20%
Barrier Model
20%
Cell Barrier
20%
Cell Microenvironment
20%
Cell Topology
20%
Cell Transmigration
20%
Diverse Microstructures
20%
In Vitro Screening
40%
Mand
20%
Manual Technique
20%
MEMS Technique
20%
New Medicines
20%
Silicon Cavity
20%
Thin Thickness
20%
Topology Formation
20%
Traditional Drugs
20%