Construction Of Tio2-Eggshell For Efficient Degradation Of Tetracycline Hydrochloride: Sunlight Induced In-Situ Formation Of Carbonate Radical

Photocatalytic degradation of an antibiotic by utilizing inexhaustible solar energy represents an ideal solution for tackling global environment issues. The target generation of active oxidative species is highly desirable for the photocatalytic pollutants degradation. Herein, aiming at the molecular structure of tetracycline hydrochloride (TC), we construct sunlight-activated high-efficient catalysts of TiO2-eggshell (TE). The composite ingeniously utilizes the photoactive function of TiO2 and the composition of eggshell, which can produce oxidative center dot CO3- species that are especially active for the degradation of aromatic compounds containing phenol or aniline structures. Through the synergistic oxidation of the center dot center dot CO3- with the traditional holes (h(+)), superoxide radicals (center dot O2-) and hydroxyl radicals (center dot OH) involved in the photocatalytic process, the optimal TE photocatalyst degrades 92.0% TC in 30 min under solar light, which is higher than TiO2 and eggshell. The photocatalytic degradation pathway of TC over TE has been proposed. The response surface methodology is processed by varying four independent parameters (TC concentration, pH, catalyst dosage and reaction time) on a Box-Behnken design (BBD) to optimize the experimental conditions. It is anticipated that the present work can facilitate the development of novel photocatalysts for selective oxidation based on center dot CO3-.