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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Cooling rate controls whether 10OS5 forms glass or crystallizes into conformationally disordered Cr1/Cr2 phases whose cold-crystallization energy output can be tuned by thermal 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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Competing crystallization pathways and cold crystallization kinetics in 10OS5 liquid crystal
Cooling rate controls whether 10OS5 forms glass or crystallizes into conformationally disordered Cr1/Cr2 phases whose cold-crystallization energy output can be tuned by thermal history.