Photocatalytic Valorization of Plastic Waste over Zinc Oxide Encapsulated in a Metal–Organic Framework
Jibo Qin, Yibo Dou, Jianchi Zhou, Víctor M. Candelario, Henrik Rasmus Andersen, Claus Hélix‐Nielsen, Wenjing Zhang
Abstract
Abstract The conversion of waste plastic into high‐value‐added chemicals is regarded as a promising approach for relieving global plastic pollution and contributing to the circular economy. Herein, a partial calcination strategy is developed to fabricate a zinc oxide/UiO66‐NH 2 (ZnO/UiO66‐NH 2 ) heterojunction, in which ZnO is encapsulated in porous UiO66‐NH 2 for the photocatalytic valorization of plastic. This strategy preserves the framework structure of UiO66‐NH 2 , thus enabling the formation of ZnO with ultra‐small size distributed inside the skeleton. The synergistic effect of the obtained ZnO/UiO66‐NH 2 heterojunction facilitates providing an efficient channel for carrier/mass transfer and guarantees structural stability. As a result, ZnO/UiO66‐NH 2 exhibits high activity for converting polylactic acid (PLA) and polyvinyl chloride (PVC) into acetic acid, coupled with H 2 production. This work provides a feasible strategy for rationally designing heterojunction photocatalysts, as well as an insight into understanding the process of photocatalytic valorization of plastic.