In situ synthesis of ZnO/g-CN based composites for photodegradation of methylene blue under visible light.

In this study, in situ-synthesized ZnO/g-CN based composites were used as photocatalysts for organic pollution removal. These nanocomposites were prepared through simple calcination of a mixture of melamine and ZnO nanoparticles and underwent comprehensive evaluation of their structural, morphological, optical, and photocatalytic properties, using various analytical techniques. As the g-CN content increased, the band gap decreased from 3.02 to 2.94 eV. Additionally, the reduction in photoluminescence intensity confirmed the heterojunction interface between the g-CN and ZnO components. The photodegradation rate of methylene blue (MB) dye exhibited an increase, rising from 0.016 (min) for ZnO and 0.011 (min) for g-CN to 0.022 (min) for the ZnO/g-CN (10 wt%) composite. Furthermore, combining ZnO (50 wt%) with g-CN led to a significant enhancement in the MB dye removal efficiency, reaching 97% compared to the ZnO/g-CN (10 wt%) composite. In contrast, the removal efficiencies were 90% for pristine ZnO and 73% for g-CN phases.