CaO/CeO2 nanocomposite dispersed macro-/meso-porous polymer monoliths as new generation visible light heterogeneous photocatalysts

纳米复合材料 材料科学 多孔性 聚合物 可见光谱 化学工程 多孔介质 聚合物纳米复合材料 纳米技术 复合材料 光电子学 计算机科学 工程类 程序设计语言
作者
Arun S. Prasad,Sanjeev Kumar,K. Satheesh,Akhila Maheswari Mohan,Prabhakaran Deivasigamani
出处
期刊:Materials today sustainability [Elsevier BV]
卷期号:19: 100189-100189 被引量:1
标识
DOI:10.1016/j.mtsust.2022.100189
摘要

This work highlights the synthesis of CaO doped CeO 2 nanocomposites (NCs) prepared by a sonochemical-assisted temperature-controlled hydrothermal method . Considering the toxicology and recovery issues with nano-particles/composites, we have attempted a novel approach by homogeneously dispersing CaO/CeO 2 NCs onto a 3D network of macro-/meso-porous monolithic polymer templates. The structural and morphological properties of the synthesized photocatalyst materials have been characterized by p-XRD, FE-SEM-EDAX, HR-TEM-SAED, XPS, FT-IR, UV–Vis-DRS, PLS, and BET analysis. The visible-light photocatalytic performance has been observed using varying stoichiometric ratios of CaO/CeO 2 NCs. The CaO/CeO 2 NCs dispersed porous polymer monolith reveals superior photocatalytic activity than bare CaO/CeO 2 NCs that tend to agglomerate in aqueous solutions, reducing their efficiency. The CaO/CeO 2 NCs dispersed polymer monolith exhibits excellent porosity and surface area for the ultra-fast dissipation of organic pollutants. A fluoroquinolone-based antimicrobial drug, namely moxifloxacin, has been chosen as the target pollutant, considering the growing bacterial resistance due to the uncontrolled discharge/discarding of pharmaceutical medications. The best results were achieved using the monolithic photocatalyst dispersed with 20:80 CaO/CeO 2 NC, for the complete dissipation of moxifloxacin drug molecules (≥99% degradation), at a pH of 6.0, using 100 mg of photocatalyst to dissipate 15 ppm of moxifloxacin drug, within 2 h of visible-light irradiation. The proposed photocatalyst is cost-effective, durable, reusable, and efficient for the real-time dissipation of environmental pollutants.

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