An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported based on a mechanically embossed chiral-nematic polymer network. The polymer consists of a chemical and a physical (hydrogen-bonded) network and has a reflection band in the visible wavelength range. The sensors are produced by mechanical embossing at elevated temperatures. A relative large compressive deformation (up to 10%) is obtained inducing a shift to shorter wavelength of the reflection band (>30 nm). After embossing, a temperature sensor is obtained that exhibits an irreversible optical response. A permanent color shift to longer wavelengths (red) is observed upon heating of the polymer material to temperatures above the glass transition...
The fabrication of shape memory coatings that change both reflectivity and topography is hampered by...
\u3cp\u3eThe fabrication of shape memory coatings that change both reflectivity and topography is ha...
A photonic shape memory polymer film that shows large color response (∼155 nm) in a wide temperature...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
Hydrogen-bonded cyclohexanoic derivatives are applied in a structural colored cholesteric liquid cry...
Hydrogen-bonded cyclohexanoic derivatives are applied in a structural colored cholesteric liquid cry...
Hydrogen-bonded cyclohexanoic derivatives are applied in a structural colored cholesteric liquid cry...
The fabrication of shape memory coatings that change both reflectivity and topography is hampered by...
The fabrication of shape memory coatings that change both reflectivity and topography is hampered by...
The fabrication of shape memory coatings that change both reflectivity and topography is hampered by...
\u3cp\u3eThe fabrication of shape memory coatings that change both reflectivity and topography is ha...
A photonic shape memory polymer film that shows large color response (∼155 nm) in a wide temperature...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
An optical and irreversible temperature sensor (e.g., a time-temperature integrator) is reported bas...
Hydrogen-bonded cyclohexanoic derivatives are applied in a structural colored cholesteric liquid cry...
Hydrogen-bonded cyclohexanoic derivatives are applied in a structural colored cholesteric liquid cry...
Hydrogen-bonded cyclohexanoic derivatives are applied in a structural colored cholesteric liquid cry...
The fabrication of shape memory coatings that change both reflectivity and topography is hampered by...
The fabrication of shape memory coatings that change both reflectivity and topography is hampered by...
The fabrication of shape memory coatings that change both reflectivity and topography is hampered by...
\u3cp\u3eThe fabrication of shape memory coatings that change both reflectivity and topography is ha...
A photonic shape memory polymer film that shows large color response (∼155 nm) in a wide temperature...