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Ionic electroactive polymer for organs-on-chip applications
P.A. Motreuil-Ragot
Electronic Components, Technology and Materials
Research output
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Thesis
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Dissertation (TU Delft)
111
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Engineering
Application
100%
Ionic Polymer Metal Composite
100%
Polymers
100%
Sensing Capability
40%
Actuation
30%
Thickness
20%
Microfluidics
20%
Gas Fuel Manufacture
20%
Substrates
20%
Micropump
20%
Environment
10%
Microfabrication
10%
Liquid Flow
10%
Models
10%
Sensor
10%
Process Flow
10%
Integrability
10%
Limitations
10%
Microelectromechanical System
10%
Comparative Study
10%
Hydrogel
10%
Microchannel
10%
Membrane
10%
Research
10%
Platinum Electrode
10%
Transducer
10%
Strain Sensing
10%
Functional Unit
10%
Linear Behavior
10%
Voltage Driving
10%
Wall Shear Stress
10%
Flow Sensor
10%
Tissue Engineering
10%
Flexural Rigidity
10%
Compatibility
10%
Soft Lithography
10%
Opposite Side
10%
INIS
applications
100%
polymers
100%
organs
100%
metals
71%
manufacturing
14%
substrates
14%
thickness
14%
tissues
14%
ions
14%
tools
14%
sensors
14%
strains
14%
electrodes
14%
membranes
7%
dynamics
7%
sensitivity
7%
levels
7%
integrability
7%
culture media
7%
units
7%
voltage
7%
toxicity
7%
diseases
7%
range
7%
moisture
7%
drugs
7%
liquid flow
7%
platinum
7%
silicon
7%
physiology
7%
transducers
7%
in vitro
7%
devices
7%
engineers
7%
walls
7%
compatibility
7%
doped materials
7%
environment
7%
engineering
7%
shear
7%
pumping
7%
hydrogels
7%
deposition
7%
Material Science
Polymers
100%
Composite Material
71%
Metal
71%
Materials
42%
Microfluidics
14%
Electrode
14%
Silicon
7%
Electroless Deposition
7%
Microelectromechanical System
7%
Liquid
7%
Rigidity
7%
Hydrogel
7%
Microfabrication
7%
Membrane
7%
Biomaterial
7%
Intelligent Material
7%
Devices
7%
Lithography
7%
Toxicity
7%
Platinum
7%
Conductivity
7%
Keyphrases
Wafer Process
10%
Culture Substrate
10%
Smart Substrate
10%
No Toxicity
10%
Drug Studies
10%
Functional Generation
10%
Electrode Conductivity
10%
Flow Strain
10%
Drug Analysis
10%
Electronically Controllable
10%
Stretcher
10%