Publication | Closed Access
Cholesteric liquid crystals with an electrically controllable reflection bandwidth based on ionic polymer networks and chiral ions
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Citations
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References
2015
Year
Optical MaterialsEngineeringWave OpticLiquid Crystalline ElastomerCholesteric Liquid CrystalsChemistryOptical PhysicsElectromagnetic MetamaterialsReflection BandwidthOptical PropertiesReflectionReflectancePolymer ChemistryIonic Polymer NetworksMaterials SciencePhotonicsControllable Reflection BandwidthSolid-state IonicPhysicsVisible Wavelength RegimeNatural SciencesOptical PhysicPolymer ScienceApplied PhysicsIonic ConductorElectric FieldsDynamic Metamaterials
The reflection bandwidth can be tuned dynamically by electric fields in the visible wavelength regime.
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