The ability of materials to exhibit efficient fluorescence in both solution and aggregated states opens up new
possibilities for their application in areas where both solution-based and solid-state emissions are essential. In
this study, we developed a luminescent molecule and conducted investigations into its thermal stability, liquid
crystal properties, absorption, and emission behavior. The studied material possesses a simple molecular
structure and demonstrates high thermal stability and liquid crystallinity. It also exhibits high emission quantum
yield in various states, including crystals, liquid crystals, and liquids, while maintaining stable emission even at
high temperatures. The molecule also emitted blue linearly polarized light. This unique combination of features
can be attributed to factors such as the rigidity of the molecular structure, the intermolecular interactions of the
fluorophore, and the presence of specific functional groups that enhance both thermal stability and emission
behavior. The molecule’s unique properties have significant potential for various applications in optoelectronics,
sensors, displays, and photonics, with a particular emphasis on organic light-emitting diodes (OLEDs) and
photovoltaics.