Keyphrases
Cuff Electrode
100%
Neurostimulation
100%
In Vitro Approach
100%
Chromium
66%
Electrolyte
33%
Thin Film Technology
33%
Adhesion Layer
33%
Sputtered Films
33%
Electrical Stimulation
33%
Biomedical Devices
33%
Thin Film Electrode
33%
Electrochemical Performance
33%
Current Collector
33%
Electrochemical Actuator
33%
Surface Roughness
33%
AFM Technique
33%
Double-layer Capacitance
33%
Electrochemical Techniques
33%
Sodium Chloride
33%
Surface Enhancement
33%
Corrosion Stability
33%
Noble Metals
33%
Electrode Surface
33%
Electrode Stability
33%
Polyimide Substrate
33%
Thin Film Devices
33%
Electrochemical Reversibility
33%
Platinum Electrode
33%
Electrode Type
33%
SEM Technique
33%
In Vitro Characterization
33%
Pt Film
33%
Material Science
Thin Films
100%
Electrode
100%
Platinum
100%
Devices
22%
Chromium
22%
Film
11%
Surface
11%
Electrolyte
11%
Actuator
11%
Sputtered Film
11%
Adhesion
11%
Characterization
11%
Scanning Electron Microscopy
11%
Surface Roughness
11%
Metal Foil
11%
Metal
11%
Polyimide
11%
Capacitance
11%
Corrosion
11%
Electrochemical Reaction
11%
Engineering
Biomedical Device
20%
High Impedance
20%
Electrode Type
20%
Low Metal
20%
Film Technology
20%
Electrode Surface
20%
Adhesion Layer
20%
Platinum Electrode
20%