Construction of Ag–ZnO/cellulose nanocomposites via tunable cellulose size for improving photocatalytic performance
2021
Shi, Chun | Zhang, Lili | Bian, Huiyang | Shi, Zhengjun | Ma, Jinxia | Wang, Zhiguo
The Ag–ZnO/cellulose nanocomposites with tunable structure and properties was fabricated and used as an effective photocatalyst for degrading methyl orange (MO) dye. The structure and properties of the Ag–ZnO/cellulose nanocomposites were regulated by the cellulose fiber size via different times of grinding treatment. The morphologies of ZnO NPs changed from flower-like to flaky with the decrease of diameter of cellulose fiber from 130 nm to 42 nm, and loading amounts of ZnO and Ag NPs on photocatalyst increased from 56.12% to 57.46% and 5.28%–6.54% respectively. The finer fibrils provided a more uniform network compared with coarse fibers, which is benefit for stable distribution of ZnO and Ag nanoparticles (NPs) and facile separation from wastewater. The Ag–ZnO/cellulose nanocomposites, prepared from cellulose fiber with grinding treatment of 30 times, exhibited homogeneous three-dimensional cellulose network with specific surface area of 40.64 m²/g and possessed excellent photocatalytic activities and reusability for MO degradation. This work provided a novel approach to control the morphology of ZnO by tuning cellulose size, for improving photocatalytic activities and recovery efficiency of Ag–ZnO/cellulose nanocomposites.
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Эту запись предоставил National Agricultural Library