Add to ORKGPhotoisomerization of azobenzene in polymer matrices is a powerful method to convert photon energy into mechanical work. While most previous studies have focused on incorporating azobenzene within amorphous or liquid crystalline materials, the limited extents of molecular ordering and correspondingly modest enthalpy changes upon switching in such systems has limited the achievable energy densities. In this work, we introduce a semicrystalline main-chain poly(azobenzene), where photoisomerization is capable of reversibly triggering melting and recrystallization under essentially isothermal conditions. These materials can be drawn into aligned fibers, yielding optically driven two-way shape memory actuators capable of reversible bending
The illumination of azobenzene molecules with UV/visible light efficiently converts the molecules be...
Azobenzene-embedded liquid crystal polymers can undergo mechanical deformation in response to ultrav...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
The emergent photoactive materials obtained through photochemistry make it possible to directly conv...
Photomechanical materials powered by light-induced changes in crystalline lattices offer promise for...
Fabrication of light-driven actuators that can prolong their deformation without constant irradiatio...
Photomechanical materials interact with light to elicit a mechanical response. They are the basis of...
Photocontrol of molecular alignment is an exceptionally-intelligent and useful strategy. It enables ...
AbstractThe incorporation of azobenzene chromophores into polymer systems gives rise to a number of ...
Photodeformable azobenzene (azo) polymers are a class of smart polymers that can efficiently convert...
Soft robots, composed of intrinsically soft materials, have continuously deformable structures that ...
Photoresponsive polymers convert a light stimulus input into a mechanical output (work). Photoinduce...
Deformations triggered by body heat are desirable in the context of shape-morphing applications beca...
This paper describes the synthesis, thermal characterization and optical properties of liquid crysta...
Well-defined gradients in molecular alignment have been used as tools to generate large amplitude, l...
The illumination of azobenzene molecules with UV/visible light efficiently converts the molecules be...
Azobenzene-embedded liquid crystal polymers can undergo mechanical deformation in response to ultrav...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...
The emergent photoactive materials obtained through photochemistry make it possible to directly conv...
Photomechanical materials powered by light-induced changes in crystalline lattices offer promise for...
Fabrication of light-driven actuators that can prolong their deformation without constant irradiatio...
Photomechanical materials interact with light to elicit a mechanical response. They are the basis of...
Photocontrol of molecular alignment is an exceptionally-intelligent and useful strategy. It enables ...
AbstractThe incorporation of azobenzene chromophores into polymer systems gives rise to a number of ...
Photodeformable azobenzene (azo) polymers are a class of smart polymers that can efficiently convert...
Soft robots, composed of intrinsically soft materials, have continuously deformable structures that ...
Photoresponsive polymers convert a light stimulus input into a mechanical output (work). Photoinduce...
Deformations triggered by body heat are desirable in the context of shape-morphing applications beca...
This paper describes the synthesis, thermal characterization and optical properties of liquid crysta...
Well-defined gradients in molecular alignment have been used as tools to generate large amplitude, l...
The illumination of azobenzene molecules with UV/visible light efficiently converts the molecules be...
Azobenzene-embedded liquid crystal polymers can undergo mechanical deformation in response to ultrav...
Azobenzene liquid crystal polymers offer the potential to fabricate autonomously operated actuators ...