Research works on new discoid molecules, comprehending an aromatic/heteroaromatic rigid core with flexible peripheral chains, have been gathered with the multiplying attentiveness due to their prime importance as prototype systems for the charge and energy transport investigation and owing to the prospect of their organo-electronic applications. This critical review article delineates the recent headway in the fundamental design ideas and the available synthetic approaches to obtain the most often encountered triazine-based discotic liquid crystals. The major focal point of the review is to explore the exhilarating research on 1,3,5-triazine-based mesogens that has been reported in the last 5 years. Moreover, the current review not only highlights the variety of structural modifications that are undertaken by the various researchers across the globe in the field of 1,3,5-triazine-based discoid molecules, but also facilitates the fascinating and beneficial altering of properties, both for the rudimentary intentions of demonstrating structure–property relationships and for materials focused in the direction of commercially triumphant liquid crystal display and other applications.

由于其作为电荷和能量传输研究的原型系统的首要重要性，并且由于其有机物的前景，新的盘状分子的研究工作涵盖了具有柔性外围链的芳族/杂芳族刚性核和柔性链，因此倍受关注。电子应用。这篇重要的评论文章描述了基本设计思想和获得最常遇到的基于三嗪的盘状液晶的可用合成方法的最新进展。审查的主要重点是探索最近5年中有关基于1,3,5-三嗪的介晶的令人振奋的研究。此外，