使用FeCoO@g-CN异质结光催化剂活化过硫酸盐以改善萘普生降解

Activation of Persulfate for Improved Naproxen Degradation Using FeCoO@g-CN Heterojunction Photocatalysts.

作者信息

Palanivel Baskaran, Hossain Md Shahadat, Macadangdang Romulo R, Ayappan Chinnadurai, Krishnan Vignesh, Marnadu Raj, Kalaivani Thirunavukarasu, Alharthi Fahad A, Sreedevi Gedi

机构信息

Department of Physics, Kings Engineering College, Sriperumbudur, Kancheepuram, Tamil Nadu 602117, India.

Department of Innovation Systems Engineering, Graduate School of Engineering, Utsunomiya University, Yoto 7-1-2, Utsunomiya 321-8585, Japan.

出版信息

ACS Omega. 2021 Dec 13;6(50):34563-34571. doi: 10.1021/acsomega.1c04896. eCollection 2021 Dec 21.

DOI:10.1021/acsomega.1c04896

PMID:34963941

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8697371/

Abstract

An effective heterojunction with robust charge separation and enormous degradation efficiency is the major task for photocatalyst preparation. In this study, we have prepared the FeCoO-loaded g-CN nanosheet by the sol-gel-assisted calcination method for photo-Fenton-like degradation under visible-light irradiation by activating persulfate. The nanocomposite exhibits a higher charge separation efficiency than pure g-CN and FeCoO for the degradation reaction against naproxen drugs. An effective interaction between the nanoparticles increases the degradation efficiency up to 91% with a synergistic index of 73.62%. Moreover, the nanocomposite exhibits a 78% mineralization efficiency against the naproxen pollutant under visible-light irradiation. For practical implementation, the degradation reaction was tested with various pH values, different water sources (DI, lake, and tap water), and light sources (LED (visible)/direct sunlight (UV-visible)). Moreover, the possible degradation mechanism predicted by the elemental trapping experiment and the recycling experiment clearly revealed that the heterojunction composite has a high enough degradation stability.

摘要

制备具有强大电荷分离能力和高降解效率的有效异质结是光催化剂制备的主要任务。在本研究中，我们通过溶胶 - 凝胶辅助煅烧法制备了负载FeCoO的g-CN纳米片，用于在可见光照射下通过活化过硫酸盐进行类光芬顿降解。对于萘普生药物的降解反应，该纳米复合材料表现出比纯g-CN和FeCoO更高的电荷分离效率。纳米颗粒之间的有效相互作用使降解效率提高到91%，协同指数为73.62%。此外，该纳米复合材料在可见光照射下对萘普生污染物的矿化效率为78%。为了实际应用，在不同pH值、不同水源（去离子水、湖水和自来水）以及光源（LED（可见光）/直射阳光（紫外 - 可见光））条件下测试了降解反应。此外，通过元素捕获实验和循环实验预测的可能降解机制清楚地表明，异质结复合材料具有足够高的降解稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a975/8697371/57eee83cb99d/ao1c04896_0005.jpg

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使用FeCoO@g-CN异质结光催化剂活化过硫酸盐以改善萘普生降解

Activation of Persulfate for Improved Naproxen Degradation Using FeCoO@g-CN Heterojunction Photocatalysts.

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