Novel Z-Scheme/Type-II CdS@ZnO/g-C3N4 ternary nanocomposites for the durable photodegradation of organics: Kinetic and mechanistic insights

被引:73
作者
Hashem E.M. [1 ]
Hamza M.A. [1 ,2 ]
El-Shazly A.N. [2 ,3 ]
Abd El-Rahman S.A. [1 ]
El-Tanany E.M. [1 ]
Mohamed R.T. [1 ]
Allam N.K. [2 ]
机构
[1] Chemistry Department, Faculty of Science, Ain-Shams University, Abbassia, Cairo
[2] Energy Materials Laboratory (EML), School of Sciences and Engineering, The American University in Cairo, New Cairo
[3] Central Metallurgical Research and Development Institute, P.O. Box 87, Helwan, Cairo
来源
Chemosphere | 2021年 / 277卷
关键词
CdS quantum Dots; g-C[!sub]3[!/sub]N[!sub]4[!/sub] nanocomposites; Photocatalysts; Photocatalytic heterojunctions; Photodegradation; ZnO nanoparticles;
D O I
10.1016/j.chemosphere.2020.128730
中图分类号
学科分类号
摘要
Visible-light-driven photocatalysis is a green and efficient strategy for wastewater treatment, where graphitic carbon nitride-based semiconductors showed excellent performance in this regard. Consequently, we report on the development of a green and facile one-pot room-temperature ultrasonic route for the preparation of novel ternary nanocomposite of cadmium sulfide quantum dots (CdS QDs), zinc oxide nanoparticles (ZnO NPs), and graphitic carbon nitride nanosheets (g-C3N4 NSs). The proposed materials had been characterized by several physicochemical techniques such as PXRD, XPS, FE-SEM, HR-TEM, PL, and DRS. The photocatalytic efficiency of the proposed photocatalysts was assessed towards the photodegradation of Rhodamine B dye as a water pollutant model using spectrophotometric measurements. The as-synthesized novel ternary nanocomposite (CdS@ZnO/g-C3N4) exhibited perfect photocatalytic activity, where almost complete degradation was achieved in only 2 h under UV-irradiation or 3 h under visible-irradiation. Various methods were used to elucidate the kinetics of the photocatalytic process. Moreover, CdS@ZnO/g-C3N4 exhibited a unique synergetic performance when compared to the corresponding binary composites or the individual components. This synergetic performance could be ascribed to the perfect electronic band configuration of the three components, leading to the establishment of several combined synergetic Z-Scheme/Type-II photocatalytic heterojunctions, which is the proposed mechanism for the observed synergetic photocatalytic reactivity of the as-synthesized CdS@ZnO/g-C3N4 nanocomposite when compared to the single and binary nanocomposite counterparts. Furthermore, the effects of both the type and concentration of various scavengers on the photocatalytic activity were assessed to investigate the most reactive species, where the reductive degradation pathway was found to be the predominant route. Finally, the photocatalytic efficiency of the as-synthesized CdS@ZnO/g-C3N4 composite showed promising and competing results when compared to other photocatalysts reported in the literature. © 2020 Elsevier Ltd
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