The designed ternary liquid crystal mixture stabilizes a broad antiferroelectric SmC_A* phase, vitrifies the hexatic SmX_A* phase, and shows evidence of altered molecular organization between SmC* and SmC_A* phases based on X-ray, dielectric, and calorimetric data.
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Ternary liquid crystal mixtures form glasses in the antiferroelectric smectic phase that selectively reflect blue light, with color in the ferroelectric phase depending on cooling or heating history.
citing papers explorer
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Ternary liquid crystalline mixture showing broad antiferroelectric smectic C$_A$* and glassy hexatic smectic X$_A$* phases
The designed ternary liquid crystal mixture stabilizes a broad antiferroelectric SmC_A* phase, vitrifies the hexatic SmX_A* phase, and shows evidence of altered molecular organization between SmC* and SmC_A* phases based on X-ray, dielectric, and calorimetric data.
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Selective reflection of light in glassforming ternary liquid crystalline mixtures
Ternary liquid crystal mixtures form glasses in the antiferroelectric smectic phase that selectively reflect blue light, with color in the ferroelectric phase depending on cooling or heating history.