The surface functional groups-driven fast and catalytic degradation of naproxen on sludge biochar enhanced by citric acid

IF 7.6 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES

Environmental Pollution Pub Date : 2024-08-29 DOI:10.1016/j.envpol.2024.124857

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Abstract

In this work, a sludge biochar (CA-SBC-300) with efficient activation of peroxymonosulfate (PMS) was prepared by citric acid modification. CA-SBC-300 achieved efficient degradation of naproxen (NPX) (95.5%) within 10 min by activating PMS. This system was highly resilient to common disruptive factors such as inorganic anions, humic acid (HA) and solution pH. The results of XPS and Raman showed that the content of oxygenated functional groups (OFGs) and the degree of defects on the sludge biochar increased after citric acid modification, which may be an important reason for the enhanced catalytic performance of SBC. In the CA-SBC-300/PMS system, ¹O₂ and O₂^•− made the main contributions to the degradation of NPX. XPS analysis and DFT calculations demonstrated that C=O/C−O and pyridine N on CA-SBC-300 were the crucial active sites for PMS activation. According to the results of UPLC-MS analysis, three possible pathways for NPX degradation were inferred. This study provided a feasible strategy for sludge resource utilization combined with efficient catalytic degradation of toxic organic contaminants in wastewater.

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污泥生物炭在柠檬酸作用下快速催化降解萘普生的表面功能团

本研究通过柠檬酸改性制备了一种可高效活化过一硫酸盐（PMS）的污泥生物炭（CA-SBC-300）。通过活化 PMS，CA-SBC-300 在 10 分钟内实现了对萘普生（NPX）（95.5%）的高效降解。该系统对无机阴离子、腐植酸（HA）和溶液 pH 值等常见干扰因素具有很强的抵抗力。XPS 和拉曼研究结果表明，经过柠檬酸改性后，污泥生物炭上含氧官能团（OFG）的含量和缺陷程度都有所增加，这可能是 SBC 催化性能增强的重要原因。在 CA-SBC-300/PMS 系统中，1O2 和 O2- 是降解 NPX 的主要成分。XPS 分析和 DFT 计算表明，CA-SBC-300 上的 C=O/C-O 和吡啶 N 是 PMS 活化的关键活性位点。根据 UPLC-MS 分析结果，推断出 NPX 降解的三种可能途径。这项研究为污泥资源化和高效催化降解废水中的有毒有机污染物提供了一种可行的策略。

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来源期刊

Environmental Pollution 环境科学-环境科学

CiteScore

16.00

自引率

6.70%

发文量

2082

审稿时长

2.9 months

期刊介绍： Environmental Pollution is an international peer-reviewed journal that publishes high-quality research papers and review articles covering all aspects of environmental pollution and its impacts on ecosystems and human health. Subject areas include, but are not limited to: • Sources and occurrences of pollutants that are clearly defined and measured in environmental compartments, food and food-related items, and human bodies; • Interlinks between contaminant exposure and biological, ecological, and human health effects, including those of climate change; • Contaminants of emerging concerns (including but not limited to antibiotic resistant microorganisms or genes, microplastics/nanoplastics, electronic wastes, light, and noise) and/or their biological, ecological, or human health effects; • Laboratory and field studies on the remediation/mitigation of environmental pollution via new techniques and with clear links to biological, ecological, or human health effects; • Modeling of pollution processes, patterns, or trends that is of clear environmental and/or human health interest; • New techniques that measure and examine environmental occurrences, transport, behavior, and effects of pollutants within the environment or the laboratory, provided that they can be clearly used to address problems within regional or global environmental compartments.

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