Oxacalix[4]arene functionalized macrocycle with columnar liquid crystal phase and self-assembly tuned by reversible photoisomerization process

•Newly macrocyclic materials based on oxacalix[4]arene have been synthesized.•All four oxacalix[4]arene-based azo-ester derivatives shows LC properties.•All macrocyclic compounds exhibited enantiotropic columnar hexagonal phase.•The selected compound is further tested for the photo tuning properties. Oxacalix[4]arene is a unique type of macrocyclic compound closely related to calixarenes. It consists of four aromatic rings connected by oxygen bridges. This molecule exhibits a remarkable blend of rigidity and flexibility, making it adaptable to various molecular interactions. In present study, we present our findings on the synthesis and characterization of four new supramolecular bowl-shaped materials (FOC1-FOC4) originating from the robust core structure of tetranitro oxacalix[4]arene. The thermal decomposition was analyzed through the thermogravimetric analysis. All four oxacalix[4]arene-based macrocycles adopted a 1,3-alternate (saddle-like) conformation and exhibited a columnar hexagonal phase with a behavior to self-assemble at room temperature. All four macrocycles (FOC1-FOC4) displayed enantiotropic mesophases within a temperature range of 56.0 °C to 63.0 °C. Further, the relationship between the molecular structure, particularly the varying alkyl chains, and the mesomorphic properties of these compounds was also examined. It was found that the mesomorphic behavior of FOC3 and FOC4 was significantly influenced by cis and trans isomerization. These two compounds exhibited photoswitching behavior, transitioning between their cis and trans forms when exposed to 365 nm light. Notably, they displayed a prolonged stability in the cis form after UV exposure, which is valuable for applications requiring precise control over the switching process. [Display omitted]