Supramolecular cocrystals of O—H…O hydrogen‐bonded 18‐crown‐6 with isophthalic acid derivatives: Hirshfeld surface analysis and third‐order nonlinear optical properties

Two cocrystals of 18‐crown‐6 with isophthalic acid derivatives, 5‐hydroxyisophthalic acid and trimesic acid, have been successfully grown by the slow evaporation solution growth technique. Crystal structures of (18‐crown‐6)·6(5‐hydroxyisophthalic acid)·10(H 2 O) (I) and (18‐crown‐6)·2(trimesic acid)·2(H 2 O) (II) elucidated by single crystal X‐ray diffraction reveal that both cocrystals pack the centrosymmetric triclinic space group . The molecules are associated by strong/weak hydrogen bonds, π…π and H…H stacking interactions. Powder X‐ray diffraction analyses, experimental and simulated from single‐crystal diffractogram data have been matched. The vibrational patterns in FT–IR spectra are used to identify the functional groups. The band gap energy is estimated by the application of the Kubelka–Munk algorithm. Hirshfeld surfaces derived from X‐ray diffraction analysis reveal the type of molecular interactions and their relative contributions. The constructed supramolecular assembly of crown ether cocrystal is thoroughly described. Both cocrystals exhibit a significant third‐order nonlinear optical response and it is observed that (I) possesses a significant first‐order molecular hyperpolarizability whereas it is negligible for (II).