AI Article Synopsis
- The study introduces a novel use of cellulose nanofibers as carriers for photocatalysts, enhancing the recycling and reducing aggregation of nanoparticles.
- Characterization of the new hydrogel, N-CQDs-ZnO/CNF (ZCH-2), through various techniques revealed its impressive ability to remove Cr(VI), achieving a 98.9% removal rate after specific treatment times.
- The mechanism of Cr(VI) removal involved electrostatic attraction and chemical adsorption, with ZCH-2 showing significantly improved performance compared to traditional hydrogel, alongside a unique method for visually detecting Cr(VI) through fluorescence changes.
Article Abstract
This work innovatively used cellulose nanofibers as a photocatalyst carrier, which could recycle nano-photocatalysts and minimize nanoparticle aggregation. The morphology, structures, chemical composition, optical-electronic properties and photocatalytic performance of amino-modified carbon quantum dots-ZnO/cellulose nanofiber (N-CQDs-ZnO/CNF: ZCH-2) hydrogel were characterized by SEM, TEM, BET, EDS, XRD, FTIR, UV-vis, XPS, PL and other techniques. The mechanism of Cr(VI) adsorption synergistic photoreduction by ZCH-2 was discussed in detail. The results showed that the prepared ZCH-2 had excellent removal performance for Cr(VI). After 120 min of adsorption and 40 min of photoreduction, the removal efficiency of Cr(VI) was 98.9 %. Compared with ZnO/CNF hydrogel, the adsorption performance of ZCH-2 increased by 268 % and the photoreduction performance increased by 116 %. The adsorption of Cr(VI) by ZCH-2 was controlled by electrostatic attraction and chemical adsorption. The photoreduction kinetic constant of ZCH-2 was 0.106 min, which was 8.9 times that of ZnO/CNF hydrogel. The N-CQDs in ZCH-2 could form N-CQDs-metal complexes with Cr(VI), resulting in fluorescence quenching, so Cr(VI) could be visually identified by fluorescence changes. This study provides a new idea for the design and optimization of a new multifunctional hydrogel with efficient adsorption-photoreduction-fluorescence recognition.
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| http://dx.doi.org/10.1016/j.ijbiomac.2023.128068 | DOI Listing |
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