Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system

Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system

Fe3O4 was obtained by reacting FeCl2 and FeCl3 with polyethylene glycol, and labeled onto a amphiphilic Janus nanosheet. It was confirmed by infrared spectroscopy, SEM, AFM and EDS that the Fe3O4 nanoparticles changed from hydrophilic to amphiphilic. The oxidative desulfurization performance of amph...

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Main Authors: Chunwei Shi, Xue Zhang, Xiaoyan Zhang, Ping Chen, Lingzi Xu
Format: Article
Language:English
Published: Elsevier 2021-08-01
Series:Ultrasonics Sonochemistry
Subjects:
Iron oxide
Desulphurization
Modification
Janus
Ultrasonic wave
Online Access:http://www.sciencedirect.com/science/article/pii/S1350417721002042
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spelling doaj-f8e1815d71d942358c216dd1a936847e2021-07-25T04:42:30ZengElsevierUltrasonics Sonochemistry1350-41772021-08-0176105662Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture systemChunwei Shi0Xue Zhang1Xiaoyan Zhang2Ping Chen3Lingzi Xu4Liaoning Shihua University, Fushun 113001, China; Administration Center of the Yellow River Delta Sustainable Development Institute of Shandong Province, Dongying 257001, China; Corresponding author.Liaoning Shihua University, Fushun 113001, ChinaLiaoning Nuclear and Radiation Testing Center, Dalian 116107, ChinaLiaoning Shihua University, Fushun 113001, ChinaLiaoning Shihua University, Fushun 113001, ChinaFe3O4 was obtained by reacting FeCl2 and FeCl3 with polyethylene glycol, and labeled onto a amphiphilic Janus nanosheet. It was confirmed by infrared spectroscopy, SEM, AFM and EDS that the Fe3O4 nanoparticles changed from hydrophilic to amphiphilic. The oxidative desulfurization performance of amphiphilic iron oxide was studied. Results showed that the Janus nanosheets labeled with Fe3O4 could significantly improve the removal rate of thiophene sulfide in simulated oil synergistically with ultrasonic waves, and the desulfurization rate could reach 100%. Further, the effect of ultrasound on the sensing ability of the oil–water interface was studied and the ultrasonic attenuation coefficient was calculated. In addition to the desulfurization mechanism of Fe3O4, it was found that although the ultrasonic attenuation coefficient of the amphiphilic nanosheets was high, the number of hydroxyl radicals determined the desulfurization efficiency. The amphiphilic Fe ions were more favorable for the formation of hydroxyl radicals than the single hydrophilic ones.http://www.sciencedirect.com/science/article/pii/S1350417721002042Iron oxideDesulphurizationModificationJanusUltrasonic wave
collection DOAJ
language English
format Article
sources DOAJ
author Chunwei Shi
Xue Zhang
Xiaoyan Zhang
Ping Chen
Lingzi Xu
spellingShingle Chunwei Shi
Xue Zhang
Xiaoyan Zhang
Ping Chen
Lingzi Xu
Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system
Ultrasonics Sonochemistry
Iron oxide
Desulphurization
Modification
Janus
Ultrasonic wave
author_facet Chunwei Shi
Xue Zhang
Xiaoyan Zhang
Ping Chen
Lingzi Xu
author_sort Chunwei Shi
title Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system
title_short Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system
title_full Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system
title_fullStr Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system
title_full_unstemmed Ultrasonic desulfurization of amphiphilic magnetic-Janus nanosheets in oil-water mixture system
title_sort ultrasonic desulfurization of amphiphilic magnetic-janus nanosheets in oil-water mixture system
publisher Elsevier
series Ultrasonics Sonochemistry
issn 1350-4177
publishDate 2021-08-01
description Fe3O4 was obtained by reacting FeCl2 and FeCl3 with polyethylene glycol, and labeled onto a amphiphilic Janus nanosheet. It was confirmed by infrared spectroscopy, SEM, AFM and EDS that the Fe3O4 nanoparticles changed from hydrophilic to amphiphilic. The oxidative desulfurization performance of amphiphilic iron oxide was studied. Results showed that the Janus nanosheets labeled with Fe3O4 could significantly improve the removal rate of thiophene sulfide in simulated oil synergistically with ultrasonic waves, and the desulfurization rate could reach 100%. Further, the effect of ultrasound on the sensing ability of the oil–water interface was studied and the ultrasonic attenuation coefficient was calculated. In addition to the desulfurization mechanism of Fe3O4, it was found that although the ultrasonic attenuation coefficient of the amphiphilic nanosheets was high, the number of hydroxyl radicals determined the desulfurization efficiency. The amphiphilic Fe ions were more favorable for the formation of hydroxyl radicals than the single hydrophilic ones.
topic Iron oxide
Desulphurization
Modification
Janus
Ultrasonic wave
url http://www.sciencedirect.com/science/article/pii/S1350417721002042
work_keys_str_mv AT chunweishi ultrasonicdesulfurizationofamphiphilicmagneticjanusnanosheetsinoilwatermixturesystem
AT xuezhang ultrasonicdesulfurizationofamphiphilicmagneticjanusnanosheetsinoilwatermixturesystem
AT xiaoyanzhang ultrasonicdesulfurizationofamphiphilicmagneticjanusnanosheetsinoilwatermixturesystem
AT pingchen ultrasonicdesulfurizationofamphiphilicmagneticjanusnanosheetsinoilwatermixturesystem
AT lingzixu ultrasonicdesulfurizationofamphiphilicmagneticjanusnanosheetsinoilwatermixturesystem
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