Keyphrases
Water Oxidation
100%
Chemomechanical Actuators
100%
Chemo-mechanical
66%
Mechanical Actuation
66%
Bimorph Actuator
66%
Nanoparticles
33%
System Design
33%
Biomimetic
33%
Poly(2-hydroxyethyl methacrylate)
33%
Acrylic Acid
33%
Mesoscopic
33%
Active Layer
33%
Design Rules
33%
Thermodynamic Analysis
33%
Ruthenium
33%
Strain Change
33%
Diffusive Mixing
33%
Photoactive
33%
Specific Features
33%
Local pH
33%
Efficiency Loss
33%
Actuation System
33%
PH Gradient
33%
Photosensitizer
33%
Active Composites
33%
Catalytic Reaction
33%
Reaction Cycle
33%
PH-responsive
33%
Light Environment
33%
Visible Light Irradiation
33%
Composite Gel
33%
Background Solution
33%
Composite Hydrogel
33%
Soft Actuation
33%
Dark Environment
33%
Catalytic Water Oxidation
33%
Iridium Dioxide
33%
Reversible Actuation
33%
Engineering
Actuation
100%
Nanoparticle
33%
Hydrogel
33%
Active Layer
33%
Design Rule
33%
Diffusive Mixing
33%
Biomimetics
33%
Actuation System
33%
Efficiency Loss
33%
Catalytic Reaction
33%
Hydrogel Composite
33%
Chemical Engineering
Hydrogel
100%
Nanoparticle
50%
Biomimetics
50%
Ruthenium Catalyst
50%
Catalytic Reaction
50%
Material Science
Actuator
100%
Hydrogel
66%
Nanoparticle
33%
Ruthenium
33%
Iridium
33%
Photosensitizer
33%