Add to ORKG\u3cp\u3eThe fabrication of stimulus-responsive coatings that change both reflectivity and topography is hampered by the lack of easy processable, patternable, and programmable elastomers. Here, an easily applied reflective coating based on a semi-interpenetrating polymer network composed of a liquid crystal elastomer and a liquid crystal network (>15 wt%) is reported. The reflective wavelength of these polysiloxane elastomer photonic coatings can be readily programed by the concentration of chiral reactive mesogen dopant that forms the network. The coatings show a fast and reversible decrease in reflection band intensity with increasing temperature, which can be tuned by the polymer network density. In addition, hierarchical surface rel...
\u3cp\u3eThe fabrication of shape memory coatings that change both reflectivity and topography is ha...
\u3cp\u3eThe development of well-adhering, easily producible photonic reflective coatings is still a...
The UV intensity during photopolymerization allows control over the structural color of a cholesteri...
The fabrication of stimulus-responsive coatings that change both reflectivity and topography is hamp...
\u3cp\u3eTemperature-responsive photonic coatings are appealing for a variety of applications, inclu...
This feature article focuses on the highlights in the development of photonic polymer coatings that ...
A new principle is developed to fabricate temperature-responsive, multicolor photonic coatings that ...
The fabrication of reversible and robust thermochromic coatings remains challenging. In this work, a...
The limitation of the different classes of responsive liquid crystals such as volatility in case of ...
The limitation of the different classes of responsive liquid crystals such as volatility in case of ...
Stimuli-responsive materials based on interpenetrating liquid crystal-hydrogel polymer networks are ...
\u3cp\u3eThe fabrication of shape memory coatings that change both reflectivity and topography is ha...
\u3cp\u3eThe development of well-adhering, easily producible photonic reflective coatings is still a...
The UV intensity during photopolymerization allows control over the structural color of a cholesteri...
The fabrication of stimulus-responsive coatings that change both reflectivity and topography is hamp...
\u3cp\u3eTemperature-responsive photonic coatings are appealing for a variety of applications, inclu...
This feature article focuses on the highlights in the development of photonic polymer coatings that ...
A new principle is developed to fabricate temperature-responsive, multicolor photonic coatings that ...
The fabrication of reversible and robust thermochromic coatings remains challenging. In this work, a...
The limitation of the different classes of responsive liquid crystals such as volatility in case of ...
The limitation of the different classes of responsive liquid crystals such as volatility in case of ...
Stimuli-responsive materials based on interpenetrating liquid crystal-hydrogel polymer networks are ...
\u3cp\u3eThe fabrication of shape memory coatings that change both reflectivity and topography is ha...
\u3cp\u3eThe development of well-adhering, easily producible photonic reflective coatings is still a...
The UV intensity during photopolymerization allows control over the structural color of a cholesteri...