ZnO@ porous graphite nanocomposite from waste for superior photocatalytic activity

Mohamed, Hanan H.; Alsanea, Amerah A.; Alomair, Nuhad A.; Ak̲h̲tar, Sult̤ān; Bahnemann, Detlef W.

ZnO@ porous graphite nanocomposite from waste for superior photocatalytic activity

2019

Mohamed, Hanan H. | Alsanea, Amerah A. | Alomair, Nuhad A. | Ak̲h̲tar, Sult̤ān | Bahnemann, Detlef W.

In this work, a new type of advanced 3D mesoporous carbon nanocomposites derived from Zn dust/PET bottle mixed waste with a high surface area is created. Interestingly, simultaneous transformation of Zn metal into ZnO nanoparticles and PET bottle waste to porous carbon materials occurred upon thermal treatment at 700 °C. The effect of the amount of Zn metal on the prepared materials has been studied. The carbon material-based waste presented very large surface area (up to 684.5 m²/g) with pore size distribution (18.47–16.88 nm). The SEM and TEM analysis revealed that the produced carbon materials have 3D porous dense layers with a gradient pore structure. The created waste-based nanocomposite exhibited an enhanced photocatalytic performance for the degradation of organic dyes (methylene blue and malachite green). It is believed that the presented work not only provides a sustainable approach to the creation of new nanocomposites of ZnO-mesoporous carbon materials for the application in photocatalysis but also introduces a new way of upcycling of mixed waste materials.

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