Journal
JOURNAL OF DISPERSION SCIENCE AND TECHNOLOGY
Volume -, Issue -, Pages -Publisher
TAYLOR & FRANCIS INC
DOI: 10.1080/01932691.2023.2219330
Keywords
Semiconducting polymers; microspheres; photocatalysts; tetracycline antibiotics
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This study examined the performances and mechanism of photodegradation of tetracycline (TC) using semiconducting polymer microspheres. The as-prepared microspheres showed outstanding photocatalytic ability and stability for TC-derived antibiotics. The adsorption and photocatalytic rates of TC by the microspheres increased significantly, mainly due to the larger specific surface area and longer conjugation length of the spherical structure. The primary active species for efficient photodegradation of TC were identified as superoxide radical, hydrogen peroxide, and hole.
The side effects of antibiotics on humans and ambient environment have aroused huge attention from related researchers. In this article, the performances and mechanism of photodegradation of tetracycline (TC) were examined by employing semiconducting polymer microspheres obtained with an emulsion-solvent-evaporation approach. Under the excitation of visible-light, as-prepared semiconducting polymer microspheres show outstanding photocatalytic ability and excellent stability for TC-derived antibiotics. Compared with corresponding semiconducting polymer powders, the adsorption and photocatalytic rates of TC by polymer-based microspheres increased by 8.07 and 6.79 times, respectively. These performance improvements in photodegradation are mainly ascribed to the larger specific surface area and longer conjugation length of as-prepared spherical structure. Characterization of electron spin resonance demonstrates that the primary active species functioning for efficient photodegradations of TC are superoxide radical, hydrogen peroxide, and hole. These results indicated that semiconducting polymer microspheres can serve as efficient photocatalysts for removing destructive TC-derived antibiotics from wastewaters.
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