화학공학소재연구정보센터
Chemical Engineering Journal, Vol.334, 1679-1690, 2018
A novel composite hydrogel for adsorption and photocatalytic degradation of bisphenol A by visible light irradiation
A novel hydrogel catalyst (P(HEA-co-HAM)-CdS) was synthesized to remove bisphenol A (BPA) from water through adsorption and in-situ photocatalytic degradation. The characterization of P(HEA-co-HAM)-CdS hydrogel through SEM-EDS, TEM, XPS and FT-IR demonstrated heterogeneous structure and chemical combination between CdS and hydrogel. Besides, the optical properties of P(HEA-co-HAM)-CdS hydrogel illustrated enhanced photocatalytic activity under visible light irradiation with efficient separation ability of electron-hole pairs and effective visible light utilization capability. In addition, the ability of hydrogel in adsorption and degradation were observed. BPA adsorption capacity of P(HEA-co-HAM)-CdS hydrogel was 11.26 mg/g, higher than similar adsorbents. The adsorption process fitted in pseudo-second-order rate equation and Langmuir monolayer adsorption. Under 500W visible light irradiation, BPA degradation rate of P(HEA-co-HAM)-CdS hydrogel reached 92% in 3 h and photocatalytic oxidative radicals detection experiment verified holes (h(+)) and center dot O(2)(-)play major role in this system, mineralization rate of BPA was 47%. HPLC-TOF-MS was employed to detect the degradation intermediates, with theoretically Fed(2) value calculating results, possible degradation pathway of BPA was proposed. Furthermore, degradation rate remained over 84.4% after recycle. The results indicated that P(HEAco-HAM)-CdS hydrogel was a promising catalyst material in application.