Green synthesis of Dy-Sn-O-based dendritic nanofibrous as a nanoceramic employing natural compounds for removal of tetracycline

Dendritic nanofibrous Dy2Sn2O7 as a nanoceramic (DFDy2Sn2O7) were greenly provided in the existence of gum of rheum, ferula assa foetida, papaver somniferum, and barberry from Dy(NO3)3 & sdot;5H2O as well as SnCl4 & sdot;5H2O. Specimens fabricated utilizing an assortment of indigenous compounds were subjected to examination through the utilization of diverse methodologies. Due to its thermal sustainability, high ionic internal character, persistent colloidal stability, and strong mechanical properties, the system can be considered an ideal catalyst when employing the guest-host method. Using industrial waste as raw materials and turning it into valuable products is an important phenomenon in green chemistry. The investigation of diverse DFDy2Sn2O7 configurations as a nanoceramic for the eradication of organic pollutants in water via UV-visible radiation was also conducted. The optimal configuration exhibited remarkable efficacy as the tetracycline removal rates in 30 min under UV-visible radiation were excellent. Additionally, the optimal DFDy2Sn2O7 nanoceramic configuration demonstrated commendable endurance for fifty cycles, signifying its potential as an effective photocatalyst for addressing environmental concerns.