Fabrication, structural, thermo-mechanical and opto-electrical behavior of anthranilamide compound

Anthranilamide (AAM) compound were fabricated via an alcoholic solvent assisted slow evaporation at room temperature for investigating the multi functional device applications. The solubility test was performed with different concentrations of AAM salt dispersed in 100 mL ethanol solvent to understand the crystallization process of fabricated material. The cell parameters, and diffraction peaks of the title compound were collected through nondestructive tool like single crystal XRD and powder XRD studies, and thus results showed the monoclinic structure. The fabricated material’s functional group, thermal stability, and hardness behavior were tested by various tool viz FT-IR, TG-DTA, and Vickers hardness analysis. With the aid of UV–vis–NIR spectrum, and frequency conversion test technique, optical transmittance and double harmonic generation efficiency values are detected to be 92% and 4.1 mV. Using electrical studies, the dielectric parameters and specific conductance of the title compound values are varied by applying a low frequency to a high frequency region at different temperatures (313, 323, and 333 K). [Display omitted] •Anthranilamide compound were fabricated via slow evaporation route.•The developed AAM compound has a moniclinic structure.•The synthesized material exhibits good transmittance in the visible region.•The SHG value of AAM is 1.03 times that of KDP.•The AAM material has found low dielectricc loss at high frequency region in the electrical studies.