FeTiO3 p-n异质结Bi2S3 QD增强光催化降解环丙沙星的界面工程：形态转变、机制和副产物毒性评价的见解

IF 5.5 3区工程技术 Q1 ENGINEERING, CHEMICAL

Journal of the Taiwan Institute of Chemical Engineers Pub Date : 2025-05-02 DOI:10.1016/j.jtice.2025.106163

Zareen Suhara Nazeer Ali , Asad Syed , V. Subhiksha , Abdallah M. Elgorban , Meenakshi Verma , Ling Shing Wong , S. Sudheer Khan

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引用次数: 0

摘要

近年来人口的迅速增长和水资源管理不善导致了水资源的污染和短缺。淡水资源的枯竭不仅影响到人类的生活（人类健康），而且威胁到水生生物多样性。方法利用荆芥叶提取物绿色合成FeTiO3/Bi2S3 p-n纳米异质结，增强环丙沙星（CIP）的光催化矿化作用。通过SEM、TEM、XRD、XPS、BET、EIS、ESR、PL和DRS等研究手段对其综合结构和光学性能进行了全面评价。在可见光照射下，制备的纳米复合材料（NC）在120分钟内降解了96.4%的CIP。扫描电镜（SEM）图像显示，在Bi2S3量子点（QDs）的耦合过程中，FeTiO3从纳米球团簇到纳米花的异常形态转变。此外，自由基主要为O2。-和。oh通过ESR和自由基清除研究。通过连续6次光催化循环测试，评价了材料的可重复使用性，计算出其可重复使用性为94.9%，并用XRD和XPS分析了所用催化剂的稳定性。通过GC-MS分析鉴定了光降解过程中产生的中间体，并提出了可能的降解途径。随后，通过ECOSAR工具对产生的副产物的毒性进行了评估。该研究表明FeTiO3/Bi2S3在废水处理和环境应用方面具有提高光催化活性的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Interfacial engineering of Bi2S3 QD on FeTiO3 p-n heterojunction for enhanced photocatalytic degradation of ciprofloxacin: Insights into morphological transition, mechanism and by-products toxicity evaluation

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Background

Rapid surge in population in recent years and a mismanagement of water resources have resulted in their pollution and scarcity. Depleting freshwater resources has not only impacted human life (human health) but also threatened aquatic biodiversity.

Methods

The present study involves the green synthesis of FeTiO₃/Bi₂S₃ p-n nano heterojunction by using the leaf extract of D. erecta L to enhance the photocatalytic mineralization of ciprofloxacin (CIP). The comprehensive structure and optical properties were thoroughly evaluated through SEM, TEM, XRD, XPS, BET, EIS, ESR, PL and DRS studies.

Significant findings

The fabricated nanocomposite (NC) displayed high catalytic performance under visible light irradiation degrading 96.4 % of CIP in 120 min. SEM images revealed unusual morphological transition of FeTiO₃ from nanosphere clusters to nanoflowers during the coupling process of Bi₂S₃ quantum dots (QDs). Furthermore, the prominent radical species were identified to be O₂^.- and ^.OH through ESR and radical scavenging studies. The reusability of the material was evaluated by testing through six consecutive photocatalytic cycle and was calculated to be 94.9 %, and the stability was further confirmed by XRD and XPS analysis of used catalyst. The intermediates produced during photodegradation were identified through GC-MS analysis and a possible degradation pathway was proposed. Subsequently, the toxicity of the resulting by-product was evaluated through ECOSAR tool. The study presents FeTiO₃/Bi₂S₃ as a promising candidate in terms of improved photocatalytic activity for wastewater treatment and environmental applications.

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来源期刊

Journal of the Taiwan Institute of Chemical Engineers 工程技术-工程：化工

CiteScore

9.10

自引率

14.00%

发文量

362

审稿时长

35 days

期刊介绍： Journal of the Taiwan Institute of Chemical Engineers (formerly known as Journal of the Chinese Institute of Chemical Engineers) publishes original works, from fundamental principles to practical applications, in the broad field of chemical engineering with special focus on three aspects: Chemical and Biomolecular Science and Technology, Energy and Environmental Science and Technology, and Materials Science and Technology. Authors should choose for their manuscript an appropriate aspect section and a few related classifications when submitting to the journal online.