Hydrothermal fabrication of novel nanocomposites Mx‐MoO3‐α‐NaFe2(MoO4)3‐α‐FeMoO4 (M = Al, Co, Ni, and Er) for highly efficient catalytic synthesis of 5‐aryl‐1H‐tetrazole analogs

Abstract

Mx‐MoO3‐α‐NaFe2(MoO4)3‐α‐FeMoO4 (M = Al, Co, Ni, and Er) nanomaterials were fabricated by the hydrothermal method in the present study. XRPD, FESEM, TEM, BET‐BJH, UV‐Vis, and VSM analyses were used to characterize and study the physical attributes of the as‐synthesized samples. Rietveld analysis data illustrated that the products were a mixture of α‐NaFe2(MoO4)3, α‐FeMoO4, MoO3, and Fe2O3 crystal phases. UV‐Vis spectra indicated that the obtained samples had a small direct band gap energy amount at about 1.3–1.5 eV. VSM analysis confirmed that the as‐fabricated samples had magnetic properties. However, most ferromagnetic behaviors were observed by doping Ni into the host crystal system. Catalytic synthesis of some 5‐aryl‐1H‐tetrazole analogs was performed under heat, microwave, and ultrasonic conditions. Reaction time, temperature, and solvent type parameters were studied to find the optimum conditions. High efficiency was obtained when ethyl alcohol was used as the reaction mixture solvent.