Engineering
Single-Walled Carbon Nanotube
100%
Hybrid Actuator
100%
Polyaniline
100%
Actuation
50%
Electrical Power
50%
Electric Power Utilization
50%
Dopants
50%
Field Strength
25%
Power Output
25%
Resonance Frequency
25%
Output Power
25%
Electrical Field
25%
Mechanical Power
25%
Output Force
25%
Low Power Consumption
25%
Artificial Muscle
25%
Keyphrases
Multi-walled Carbon Nanotubes (MWCNTs)
100%
Cellulose-based
100%
Electro-active Paper (EAPap)
100%
Polyaniline (PANi)
100%
Dopant
25%
Forcing Frequency
25%
Electrical Energy Consumption
25%
Spin Coating
12%
Resonant Frequency
12%
Blocked Force
12%
Large Displacement
12%
Actuator
12%
Force Output
12%
Power Output
12%
Biodegradability
12%
Mechanical Power Output
12%
Voltage Power
12%
Low Power Consumption
12%
Smart Actuator
12%
EAP Materials
12%
Low Actuation Voltage
12%
Artificial muscle
12%
Ultra-lightweight
12%
Low Force
12%
N-methyl-2-pyrrolidone
12%
Actuation Performance
12%