Add to ORKG\u3cp\u3eLiquid crystal networks doped with azobenzene molecular photo-switches have been commonly used as responsive polymers in untethered soft/micro robots. Understanding the underlying actuation mechanism of azobenzene chromophores in aqueous and ambient environments is crucial for the control of deformation speed and amplitude of the photo responsive actuators. Here, a systematic study is presented that clarifies the outstanding uncertainty in the mechanistic contributions of azobenzene powered actuation. The photothermal and photomechanical contributions in the mechanism are elucidated and the mechanistic dependence on azobenzene chemistry is demonstrated. By connecting mechanical, thermal, isomerization and actuation analysis in both...
The illumination of azobenzene molecules with UV/visible light efficiently converts the molecules be...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
Liquid Crystalline Elastomers (LCEs) are very promising smart materials that can be made sensitive t...
Liquid crystal networks doped with azobenzene molecular photo-switches have been commonly used as re...
A reconfigurable actuator is a stimuli-responsive structure that can be programmed to adapt differen...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
Soft robots, composed of intrinsically soft materials, have continuously deformable structures that ...
Soft and mechanically responsive actuators hold the promise to revolutionize the design and manufact...
Photomechanical materials interact with light to elicit a mechanical response. They are the basis of...
\u3cp\u3eOscillating materials that adapt their shapes in response to external stimuli are of intere...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
Liquid crystal polymers (LCP) containing azobenzene and its derivatives are fascinating and topics o...
The illumination of azobenzene molecules with UV/visible light efficiently converts the molecules be...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
Liquid Crystalline Elastomers (LCEs) are very promising smart materials that can be made sensitive t...
Liquid crystal networks doped with azobenzene molecular photo-switches have been commonly used as re...
A reconfigurable actuator is a stimuli-responsive structure that can be programmed to adapt differen...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
Soft robots, composed of intrinsically soft materials, have continuously deformable structures that ...
Soft and mechanically responsive actuators hold the promise to revolutionize the design and manufact...
Photomechanical materials interact with light to elicit a mechanical response. They are the basis of...
\u3cp\u3eOscillating materials that adapt their shapes in response to external stimuli are of intere...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
Liquid crystal polymers (LCP) containing azobenzene and its derivatives are fascinating and topics o...
The illumination of azobenzene molecules with UV/visible light efficiently converts the molecules be...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
Liquid Crystalline Elastomers (LCEs) are very promising smart materials that can be made sensitive t...