Sunlight-driven catalytic degradation of tetracycline by α-NaYF4@TiO2-Acac nanoparticles and the toxicity of intermediate products

IF 6.7 2区工程技术 Q1 ENGINEERING, CHEMICAL

Journal of water process engineering Pub Date : 2025-07-24 DOI:10.1016/j.jwpe.2025.108397

Lidija Mancic , Ivana Dinić , Marina Vuković , Miloš Tomić , Nina Tomić , Beatriz Canabarro , Paula Jardim , Lucas Almeida , Bojan A. Marinkovic

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Abstract

Up-converting α-NaYF₄@TiO₂-Acac core-shell nanoparticles, synthesized via hydrothermal treatment and sol-gel coating, were used for photocatalytic degradation of a tetracycline solution under a solar simulator. The synthesized structures exhibited wide spectral response capability, enabling up to 90 % degradation within 6 h, at a photocatalyst concentration of 10 mg L⁻¹. Highly reactive superoxide radicals (O₂⁻) were found to be the major reactive species responsible for tetracycline photo-oxidation. The boosted generation of superoxide radicals is attributed to an additional energy transfer from the core to the shell, established through direct radiation-reabsorption process and Förster resonance energy transfer. The absence of toxicity in tetracycline intermediates, formed on photodegradation, suggests the potential of α-NaYF₄@TiO₂-Acac core-shell nanoparticles for application in wastewater treatment.

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α-NaYF4@TiO2-Acac纳米粒子对四环素的光催化降解及其中间产物的毒性

采用水热法和溶胶-凝胶包覆法制备上转化α-NaYF4@TiO2-Acac核壳纳米粒子，在太阳模拟器下进行了四环素溶液的光催化降解。合成的结构具有宽光谱响应能力，在光催化剂浓度为10 mg L−1的情况下，在6小时内降解率高达90%。高活性超氧自由基（O2−）被发现是负责四环素光氧化的主要活性物质。超氧自由基的生成被归因于从核心到壳层的额外能量转移，通过直接辐射-重吸收过程和Förster共振能量转移建立。四环素中间体在光降解过程中没有毒性，这表明α-NaYF4@TiO2-Acac核壳纳米颗粒在废水处理中的应用潜力。

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来源期刊

Journal of water process engineering Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

10.70

自引率

8.60%

发文量

846

审稿时长

24 days

期刊介绍： The Journal of Water Process Engineering aims to publish refereed, high-quality research papers with significant novelty and impact in all areas of the engineering of water and wastewater processing . Papers on advanced and novel treatment processes and technologies are particularly welcome. The Journal considers papers in areas such as nanotechnology and biotechnology applications in water, novel oxidation and separation processes, membrane processes (except those for desalination) , catalytic processes for the removal of water contaminants, sustainable processes, water reuse and recycling, water use and wastewater minimization, integrated/hybrid technology, process modeling of water treatment and novel treatment processes. Submissions on the subject of adsorbents, including standard measurements of adsorption kinetics and equilibrium will only be considered if there is a genuine case for novelty and contribution, for example highly novel, sustainable adsorbents and their use: papers on activated carbon-type materials derived from natural matter, or surfactant-modified clays and related minerals, would not fulfil this criterion. The Journal particularly welcomes contributions involving environmentally, economically and socially sustainable technology for water treatment, including those which are energy-efficient, with minimal or no chemical consumption, and capable of water recycling and reuse that minimizes the direct disposal of wastewater to the aquatic environment. Papers that describe novel ideas for solving issues related to water quality and availability are also welcome, as are those that show the transfer of techniques from other disciplines. The Journal will consider papers dealing with processes for various water matrices including drinking water (except desalination), domestic, urban and industrial wastewaters, in addition to their residues. It is expected that the journal will be of particular relevance to chemical and process engineers working in the field. The Journal welcomes Full Text papers, Short Communications, State-of-the-Art Reviews and Letters to Editors and Case Studies