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A set of cyano-substituted dibenzo-quinoxaline and phenanthro-phenazine discotic mesomorphs have been synthesized, and the impact of ring closure on thermal, optical, electronic, and physical properties has been investigated. Although dibenzo-quinoxaline shows incredible fluorescence and a low-temperature mesophase, a straightforward ring closure has decreased the molecular distortion in the case of phenanthro-phenazine, thereby resulting in a more stable arrangement. A robust columnar hexagonal self-assembly in the phenanthroaphenazine compound facilitates a hole mobility of 1.02 × 10–2 cm2 V–1 s–1, which is 100-fold more than that of the dibenzo quinoxaline analogue. This demonstrates the tunability in self-assembly as well as the physical and electronic properties of discotic liquid crystalline materials with a simple modification in the chemical structure. A study of their gelation properties has also been explored, and models of the organization of molecules within the individual fiber in the gel network have been proposed in agreement with X-ray diffraction studies. These two sets of low band gap ambipolar materials have significant potential to be used in the fabrication of various optoelectronic devices.
Patra et al. (Mon,) studied this question.
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