Noncondensed aromatic carbon of sludge-derived biochar predominated peroxydisulfate activation mechanism for tetracycline degradation via an electron transfer pathway

IF 3.6 4区 环境科学与生态学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Environmental Pollutants and Bioavailability Pub Date : 2023-10-17 DOI:10.1080/26395940.2023.2267755
Xianni Yang, Xuemin Xu, Yanyan Lu, Shengsen Wang
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Abstract

Discrimination of the catalytic ability of heterogeneous biochar components is often challenging. Herein, a sewage sludge-derived biochar (SDBC) was prepared to activate peroxydisulfate (PDS) for tetracycline (TC) degradation. To verify the contribution of different carbon components, SDBC was bleached with NaClO2 and CH3COOH to remove noncondensed aromatic carbon (NAC) contained in biochar, which was confirmed by 13C Nuclear Magnetic Resonance. The batch degradation experiment revealed that NAC removal decreased TC degradation by SDBC from 84.1% to 33.2% within 2 h, indicating its significant role in PDS activation. The quenching and electron paramagnetic resonance experiments suggested a very minor contribution of radical pathway in TC degradation. Instead, the electron transfer pathway predominated TC degradation mechanism as inferred by electrochemical tests. This is likely ascribed to formation of a biochar-PDS metastable complex, facilitating electron transfer from tetracycline-like compounds. An X-ray photoelectron spectroscopy confirmed that the percent of graphitic N in SDBC decreased after the degradation reaction, which suggested graphitic N is an important active site in biochar. Besides, acid-washed SDBC did not change TC degradation behavior excluding significant contribution of minerals in SDBC to PDS activation. Thus, the roles of biochar components in catalyzing PDS were quantified for the first time, proving insight for selection and manipulation of biochar in catalyzing PDS in environmental application.
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污泥源生物炭的非缩合芳香碳主导过氧二硫酸盐活化机制,通过电子转移途径降解四环素
辨别非均相生物炭组分的催化能力往往具有挑战性。本文制备了一种污水污泥源生物炭(SDBC),以激活过硫酸氢盐(PDS)降解四环素(TC)。为了验证不同碳组分的贡献,用NaClO2和CH3COOH对SDBC进行漂白,去除生物炭中含有的非凝聚芳香碳(NAC),并通过13C核磁共振证实。批量降解实验表明,NAC的去除使SDBC对TC的降解在2 h内从84.1%降低到33.2%,表明其对PDS的激活具有重要作用。淬火和电子顺磁共振实验表明,自由基途径对TC降解的贡献很小。电化学实验表明,电子传递途径是TC降解的主要途径。这可能归因于生物炭- pds亚稳复合物的形成,促进了四环素类化合物的电子转移。x射线光电子能谱分析证实,降解反应后SDBC中石墨N的含量有所下降,表明石墨N是生物炭中重要的活性位点。此外,酸洗SDBC不改变TC的降解行为,排除SDBC中矿物质对PDS活化的显著贡献。因此,首次量化了生物炭组分在催化PDS中的作用,为生物炭在环境应用中催化PDS的选择和操作提供了新的思路。
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来源期刊
Environmental Pollutants and Bioavailability
Environmental Pollutants and Bioavailability Chemical Engineering-Chemical Health and Safety
CiteScore
4.30
自引率
3.00%
发文量
47
审稿时长
13 weeks
期刊介绍: Environmental Pollutants & Bioavailability is a peer-reviewed open access forum for insights on the chemical aspects of pollutants in the environment and biota, and their impacts on the uptake of the substances by living organisms. Topics include the occurrence, distribution, transport, transformation, transfer, fate, and effects of environmental pollutants, as well as their impact on living organisms. Substances of interests include heavy metals, persistent organic pollutants, and emerging contaminants, such as engineered nanomaterials, as well as pharmaceuticals and personal-care products as pollutants.
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