N、Ag 共掺杂 TiO2 介导的固定化原位双工艺（改性光催化和光芬顿）在太阳辐射下对头孢氨苄的降解。

N, Ag co-doped TiO mediated modified in-situ dual process (modified photocatalysis and photo-Fenton) in fixed-mode for the degradation of Cephalexin under solar irradiations.

机构信息

School of Energy and Environment, Thapar Institute of Engineering and Technology, Patiala, Punjab, India.

出版信息

Chemosphere. 2018 Dec;212:611-619. doi: 10.1016/j.chemosphere.2018.08.120. Epub 2018 Aug 27.

DOI:10.1016/j.chemosphere.2018.08.120

PMID:30172043

Abstract

Novel FeNAgTiO composite beads possessing unusual characteristics of modified in-situ dual process (modified photocatalysis and photo-Fenton) resulted in reduction in treatment time of Cephalexin (CEX). These composite beads were prepared using NAgTiO and waste foundry sand (FS) and fly-ash (FA) as alternative source of iron. The modified TiO was characterized through SEM/EDS, DRS, XRD, TGA, FTIR, XPS and Raman spectroscopy to affirm the distribution of Ag and N on TiO surface. The modified in-situ dual process using FeNAgTiO composite beads yielded 77% degradation of CEX after 60 min of solar irradiations with overall synergy of 24% over individual processes. FeNAgTiO composite beads were characterized through SEM/EDS, XRD and DRS to confirm the presence of Fe along with Ag, N and TiO on the surface of beads. These composite beads were stable and active even after 15 recycles. The mineralization of CEX was validated through reduction in COD and TOC along with generation of anions while intermediates were identified through GC-MS analysis.

摘要

新型 FeNAgTiO 复合珠具有独特的改性原位双过程（改性光催化和光芬顿）的特点，可减少头孢氨苄（CEX）的处理时间。这些复合珠是通过 NAgTiO 和废铸造砂（FS）和粉煤灰（FA）作为铁的替代来源制备的。通过 SEM/EDS、DRS、XRD、TGA、FTIR、XPS 和拉曼光谱对改性 TiO 进行了表征，以证实 Ag 和 N 在 TiO 表面的分布。使用 FeNAgTiO 复合珠进行改性原位双过程，在太阳能照射 60 分钟后，CEX 的降解率达到 77%，与单独过程相比，总协同作用为 24%。通过 SEM/EDS、XRD 和 DRS 对 FeNAgTiO 复合珠进行了表征，以确认在珠粒表面存在 Fe 以及 Ag、N 和 TiO。这些复合珠即使经过 15 次循环仍保持稳定和活性。通过减少 COD 和 TOC 以及生成阴离子来验证 CEX 的矿化，同时通过 GC-MS 分析鉴定中间产物。

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N、Ag 共掺杂 TiO2 介导的固定化原位双工艺（改性光催化和光芬顿）在太阳辐射下对头孢氨苄的降解。

N, Ag co-doped TiO mediated modified in-situ dual process (modified photocatalysis and photo-Fenton) in fixed-mode for the degradation of Cephalexin under solar irradiations.

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