Water pollution becomes a serious global concern threatening the entire biosphere and affecting the lives of many millions of people around the world. Water pollution causes a variety of diseases and millions of people die annually because of illness related to the dirty water. TbFeO₃ nanostructures were synthesized by green sonication method. Cherry and orange juice were used as natural surfactant and results were compared by those obtained by chemical surfactants (SDS and CTAB). Then as-prepared TbFeO₃ nanostructures were applied to treat wastewater containing Methyl orange, Acid Blue 92, Acid Black 1, and Acid Brown 214. In addition, the effect of pH and containment concentration on the photocatalytic activity of TbFeO₃ nanostructure was studied. Using orange juice as surfactant leads helped to boost the photocatalytic activity of TbFeO₃ nanostructure. As prepared TbFeO₃ nanostructure were characterized with XRD, SEM, TEM, EDX, DRS, BET and FT-IR.

水污染已成为严重的全球性关注问题，威胁到整个生物圈，并影响着全球数百万人的生活。水污染导致多种疾病，并且每年有数百万人死于与污水有关的疾病。通过绿色超声法合成了TbFeO ₃纳米结构。樱桃汁和橙汁用作天然表面活性剂，并将结果与​​化学表面活性剂（SDS和CTAB）获得的结果进行比较。然后将制备好的TbFeO ₃纳米结构用于处理含有甲基橙，酸性蓝92，酸性黑1和酸性棕214的废水。此外，pH和浓度对TbFeO ₃的光催化活性的影响研究了纳米结构。使用橙汁作为表面活性剂铅有助于提高TbFeO ₃纳米结构的光催化活性。所制备的TbFeO ₃纳米结构通过XRD，SEM，TEM，EDX，DRS，BET和FT-IR进行表征。