Effectiveness of ZnO/carbon-based material as a catalyst for photodegradation of acrolein

Abstract

Acrolein (ACR) is a metabolite of cyclophosphamide (CYP) and induces hemorrhagic cystitis (HC). Here, we investigated the effectiveness of ZnO/carbon fiber (CF) composites as catalysts for removing ACR through photodegradation. Specimens composed of CF and zinc oxide (ZnO) were prepared and annealed at 200–400°C in air. For the ZnO/CF specimen annealed at 200°C (CZ200), a continuous and porous ZnO film was formed on the CF surface. Field-emission scanning electron microscopy and physisorption analysis indicated that this composite had a high specific surface area. X-ray diffraction analysis and photoluminescence spectroscopy showed that the ZnO film was amorphous, exhibiting a broad emission spectrum. An ultraviolet (UV) radiation-based degradation system and methylene blue (MB) solution were used to evaluate the feasibility of using the composites as photodegradation catalysts. CZ200 exhibited the highest MB photodegradation rate (95%). The photodegradation of ACR (75ppm) under 4W UV light was investigated using an untreated CF sample, an active carbon fiber (ACF) fabric sample, and the CZ200 specimen. CZ200 (45%) exhibited higher ACR degradation rate than CF (8%) and ACF (28%). Hence, we confirmed that ZnO/CF composites can be used to photodegrade ACR and have potential for use in preventing CYP-induced HC in chemotherapy patients.