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Title		Authors	PubMed ID
1	Sustainable chemical processing of flowing wastewater through microwave energy	Siddique F; Mirzaei A; Gonzalez-Cortes S; Slocombe D; Al-Megren HA; Xiao T; Rafiq MA; Edwards PP;	34474383 PHYSICS
2	Hierarchical magnetic petal-like Fe3O4-ZnO@g-C3N4 for removal of sulfamethoxazole, suppression of photocorrosion, by-products identification and toxicity assessment	Mirzaei A; Chen Z; Haghighat F; Yerushalmi L;	29705637 ENCS
3	Photocatalytic degradation of sulfamethoxazole by hierarchical magnetic ZnO@g-C3N4: RSM optimization, kinetic study, reaction pathway and toxicity evaluation.	Mirzaei A, Yerushalmi L, Chen Z, Haghighat F	30086522 ENCS
4	Effects of ZnO nanoparticles on intestinal function and structure in normal/high fat diet-fed rats and Caco-2 cells.	Abbasi-Oshaghi E, Mirzaei F, Mirzaei A	30394178 ENCS
5	Sonocatalytic removal of ampicillin by Zn(OH)F: Effect of operating parameters, toxicological evaluation and by-products identification.	Mirzaei A, Haghighat F, Chen Z, Yerushalmi L	31054533 ENCS

Title:	Photocatalytic degradation of sulfamethoxazole by hierarchical magnetic ZnO@g-C3N4: RSM optimization, kinetic study, reaction pathway and toxicity evaluation.
Authors:	Mirzaei A, Yerushalmi L, Chen Z, Haghighat F
Link:	https://www.ncbi.nlm.nih.gov/pubmed/30086522?dopt=Abstract
Publication:
Keywords:
PMID:	30086522	Category:	J Hazard Mater	Date Added:	2019-06-04
Dept Affiliation:	ENCS 1 Department of Building, Civil and Environmental Engineering (BCEE), Faculty of Engineering & Computer Sciences, Concordia University, Montreal, Canada. 2 Department of Building, Civil and Environmental Engineering (BCEE), Faculty of Engineering & Computer Sciences, Concordia University, Montreal, Canada. Electronic address: zhichen@alcor.concordia.ca.

Description:

Photocatalytic degradation of sulfamethoxazole by hierarchical magnetic ZnO@g-C3N4: RSM optimization, kinetic study, reaction pathway and toxicity evaluation.

J Hazard Mater. 2018 Oct 05;359:516-526

Authors: Mirzaei A, Yerushalmi L, Chen Z, Haghighat F

Abstract

The degradation of sulfamethoxazole (SMX) by a synthesized hierarchical magnetic zinc oxide based composite ZnO@g-C3N4 (FZG) was examined. Hierarchical FZG was synthesized by using Fe3O4 nanoparticle as the magnetic core and urea as the precursor for in situ growth of g-C3N4 on the surface of petal-like ZnO. The effect of catalyst dosage (0.4-0.8?g/L), solution pH (3-11) and airflow rate (0.5-2.5?L/min) on the SMX removal efficiency and the optimization of process was studied by response surface methodology (RSM) based on central composite design (CCD). The obtained RSM model with R2?=?0.9896 showed a satisfactory correlation between the predicted values and experimental results of SMX removal. Under the optimum conditions, i.e. 0.65?g/L photocatalyst concentration, pH?=?5.6 and airflow rate?=?1.89?L/min, 90.4% SMX removal was achieved after 60?min reaction. The first-order kinetic rate constant for SMX removal by using FZG was 0.0384 min-1 while the rate constant by commercial ZnO was 0.0165?min-1. Moreover, under the optimum conditions, about 64% COD removal and 45% TOC removal and a considerable reduction in toxicity were observed. The analysis of generated intermediates during the photocatalytic degradation of SMX was conducted by LC-HR-MS/MS method and a degradation pathway was proposed.

PMID: 30086522 [PubMed - in process]

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