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首页> 外文期刊>Journal of Hazardous Materials >Novel Z-scheme Ag_3PO_4/Fe_3O_4-activated biochar photocatalyst with enhanced visible-light catalytic performance toward degradation of bisphenol A
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Novel Z-scheme Ag_3PO_4/Fe_3O_4-activated biochar photocatalyst with enhanced visible-light catalytic performance toward degradation of bisphenol A

机译:新型Z-Schreement AG_3PO_4 / FE_3O_4激活的生物炭光催化剂,具有增强的可见光催化性能,朝向双酚A降解

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摘要

A novel solid-state Z-scheme heterostructure, Ag3PO4/Fe3O4 co-doped bamboo-derived activated biochar (Ag-Fe@BAB), was synthesized as an efficient photocatalyst via a co-precipitation method. Ag-Fe@BAB was used as a magnetically recoverable photocatalyst to generate free radical species with peroxydisulfate (PDS) activation under visible-LED-light illumination. The successful synthesis of Ag-Fe@BAB was confirmed by various characterization techniques. Bisphenol A (BPA) was used as a model pollutant to evaluate the photo catalytic activities of the Vis/Ag-Fe@BAB/PDS system. To confirm the photocatalytic performance of the Vis/Ag-Fe@BAB/PDS system, the effects of significant operating parameters such as the contact time, concentration of oxidant, photocatalyst dosage, and solution pH on the degradation of BPA were evaluated. We confirmed that 95.6% BPA was degraded within 60 min in the Vis/Ag-Fe@BAB/PDS system under 1.0 g/L photocatalyst, pH 6.5, and 0.5 mM PDS. The degradation mechanism of BPA in the Vis/Ag-Fe@BAB/PDS system was mainly attributed to O-center dot(2)- Furthermore, the radical species produced in the Vis/Ag-Fe@BAB/PDS system were identified by electron spin resonance. Finally, we demonstrated the recyclability of the Ag-Fe@BAB photocatalyst through its excellent magnetic property. owing to its photocatalytic performances in the presence of p-benzoquinone as a scavenger.
机译:一种新型固态Z形方案异质结构,Ag3PO4 / Fe3O4共掺杂的竹衍生的活化生物炭(Ag-Fe @ Bab)是通过共沉淀法作为高效光催化剂合成的。 Ag-Fe @ Bab被用作磁性可收回的光催化剂,以在可见光光照下在过氧硫酸盐(PDS)活化中产生自由基物质。通过各种表征技术证实了AG-FE @ BAB的成功合成。双酚A(BPA)用作污染物的模型,以评估VIS / AG-FE @ Bab / PDS系统的光催化活性。为了确认VIS / AG-FE @ BAB / PDS系统的光催化性能,评估了显着的操作参数,例如接触时间,氧化剂浓度,光催化剂量和溶液pH对BPA降解的影响。我们证实,在1.0g / L光催化剂,pH6.5和0.5mm Pds下,VIS / AG-FE @ Bab / PDS系统中,95.6%的BPA在60分钟内降解了60分钟。 VIS / AG-FE @ BAB / PDS系统中BPA的降解机制主要归因于O中心点(2) - 此外,通过识别VI / AG-FE @ Bab / PDS系统中产生的自由基物种电子自旋共振。最后,我们通过其优异的磁性证明了Ag-Fe @ Bab光催化剂的可回收性。由于其光催化在p-苯醌存在作为清除剂的情况下。

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  • 来源
    《Journal of Hazardous Materials》 |2020年第5期|123025.1-123025.10|共10页
  • 作者

    Talukdar Kristy; Jun Byung-Moon; Yoon Yeomin; Kim Yejin; Fayyaz Aqsa; Park Chang Min;

  • 作者单位

    Kyungpook Natl Univ Dept Environm Engn 80 Daehak Ro Daegu 41566 South Korea;

    Univ South Carolina Dept Civil & Environm Engn 300 Main St Columbia SC 29208 USA;

    Univ South Carolina Dept Civil & Environm Engn 300 Main St Columbia SC 29208 USA;

    Kyungpook Natl Univ Dept Environm Engn 80 Daehak Ro Daegu 41566 South Korea;

    Kyungpook Natl Univ Dept Environm Engn 80 Daehak Ro Daegu 41566 South Korea;

    Kyungpook Natl Univ Dept Environm Engn 80 Daehak Ro Daegu 41566 South Korea;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Photocatalysis; Z-scheme; Persulfate activation; Bisphenol A;

    机译:光催化;Z-scheme;过硫酸盐活化;双酚A;

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