Pharmaceutical wastes such as antibiotics in the industrially polluted water are hazardous for the aquatic ecosystem and the environment and, hence, need to be adequately treated. Prompt and efficient degradation makes the microwave (MW) technique a cutting edge technology. Apart from promptness and efficiency, the ideal MW catalysts need to be thermally robust, recyclable, and economic. The coprecipitation synthesized highly crystalline spinel nickel ferrite (SNFO, Eg similar to 1.76 eV, Ms similar to 20 emu/g) and zinc ferrite (SZFO, Eg similar to 2.47 eV, Ms similar to 4 emu/g) atomic sheets are good MW absorbers and result in similar to 90% and similar to 86% MW degradation efficiency, respectively, for the tetracycline hydrochloride (TCH) antibiotic. The whole reaction is completed within 15 min, and it demonstrates the recyclability with the catalyst being unaltered. The ferrites are not only of low cost but also thermally robust and magnetically retrievable. The microwave degradation exhibits the pseudo-second-order kinetics. The quality of water after the degradation, especially the carbon content, has been quantified, and the degradation pathways have also been determined.