Fabrication of SnO2 Nanopaticles/BiOI n–p Heterostructure for Wider Spectrum Visible-Light Photocatalytic Degradation of Antibiotic Oxytetracycline Hydrochloride
In this work, n–p heterostructure SnO2/BiOI photocatalyst was successfully fabricated through a facile chemical bath method. The photocatalysts was applied to minimize antibiotic oxytetracycline hydrochloride (OTTCH) and methyl orange (MO) under visible light irradiation. SnO2/BiOI composite exhibit...
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| Published in | ACS sustainable chemistry & engineering Vol. 5; no. 6; pp. 5134 - 5147 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
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American Chemical Society
05.06.2017
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| Abstract | In this work, n–p heterostructure SnO2/BiOI photocatalyst was successfully fabricated through a facile chemical bath method. The photocatalysts was applied to minimize antibiotic oxytetracycline hydrochloride (OTTCH) and methyl orange (MO) under visible light irradiation. SnO2/BiOI composite exhibited excellent photocatalytic performance for the refractory pollutant OTTCH and MO decomposition. The sample of 30 wt % SnO2/BiOI possessed the best photocatalytic performance in all the obtained catalysts. Several reaction parameters affecting OTTCH degradation such as initial concentration, ion species, and concentration were investigated systematically. The optical and electrical properties of materials demonstrate that the transfer rate of electron–hole pairs dramatically improve though forming an n–p junction in SnO2/BiOI hybrid. Moreover, the energy band alignments of SnO2/BiOI junction were confirmed via combining DRS and XPS analysis, which provided strong support for the proposed mechanism. This work could provide a new approach to construct new p–n junction photocatalysts and a reference for the study of other heterojunction catalysts. |
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| AbstractList | In this work, n–p heterostructure SnO2/BiOI photocatalyst was successfully fabricated through a facile chemical bath method. The photocatalysts was applied to minimize antibiotic oxytetracycline hydrochloride (OTTCH) and methyl orange (MO) under visible light irradiation. SnO2/BiOI composite exhibited excellent photocatalytic performance for the refractory pollutant OTTCH and MO decomposition. The sample of 30 wt % SnO2/BiOI possessed the best photocatalytic performance in all the obtained catalysts. Several reaction parameters affecting OTTCH degradation such as initial concentration, ion species, and concentration were investigated systematically. The optical and electrical properties of materials demonstrate that the transfer rate of electron–hole pairs dramatically improve though forming an n–p junction in SnO2/BiOI hybrid. Moreover, the energy band alignments of SnO2/BiOI junction were confirmed via combining DRS and XPS analysis, which provided strong support for the proposed mechanism. This work could provide a new approach to construct new p–n junction photocatalysts and a reference for the study of other heterojunction catalysts. In this work, n–p heterostructure SnO₂/BiOI photocatalyst was successfully fabricated through a facile chemical bath method. The photocatalysts was applied to minimize antibiotic oxytetracycline hydrochloride (OTTCH) and methyl orange (MO) under visible light irradiation. SnO₂/BiOI composite exhibited excellent photocatalytic performance for the refractory pollutant OTTCH and MO decomposition. The sample of 30 wt % SnO₂/BiOI possessed the best photocatalytic performance in all the obtained catalysts. Several reaction parameters affecting OTTCH degradation such as initial concentration, ion species, and concentration were investigated systematically. The optical and electrical properties of materials demonstrate that the transfer rate of electron–hole pairs dramatically improve though forming an n–p junction in SnO₂/BiOI hybrid. Moreover, the energy band alignments of SnO₂/BiOI junction were confirmed via combining DRS and XPS analysis, which provided strong support for the proposed mechanism. This work could provide a new approach to construct new p–n junction photocatalysts and a reference for the study of other heterojunction catalysts. |
| Author | Wen, Xiao-Ju Zeng, Guang-Ming Zhang, Lei Niu, Cheng-Gang |
| AuthorAffiliation | College of Environmental Science Engineering, Key Laboratory of Environmental Biology Pollution Control, Ministry of Education Hunan University |
| AuthorAffiliation_xml | – name: College of Environmental Science Engineering, Key Laboratory of Environmental Biology Pollution Control, Ministry of Education – name: Hunan University |
| Author_xml | – sequence: 1 givenname: Xiao-Ju orcidid: 0000-0002-6450-7244 surname: Wen fullname: Wen, Xiao-Ju – sequence: 2 givenname: Cheng-Gang orcidid: 0000-0002-2530-4858 surname: Niu fullname: Niu, Cheng-Gang email: cgniu@hnu.edu.cn, cgniu@hotmail.com – sequence: 3 givenname: Lei surname: Zhang fullname: Zhang, Lei – sequence: 4 givenname: Guang-Ming surname: Zeng fullname: Zeng, Guang-Ming |
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| Keywords | SnO2 p−n junction Oxytetracycline hydrochloride Photocatalysis BiOI |
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| Snippet | In this work, n–p heterostructure SnO2/BiOI photocatalyst was successfully fabricated through a facile chemical bath method. The photocatalysts was applied to... In this work, n–p heterostructure SnO₂/BiOI photocatalyst was successfully fabricated through a facile chemical bath method. The photocatalysts was applied to... |
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| SubjectTerms | electrical properties energy irradiation methyl orange oxytetracycline photocatalysis photocatalysts pollutants tin dioxide X-ray photoelectron spectroscopy |
| Title | Fabrication of SnO2 Nanopaticles/BiOI n–p Heterostructure for Wider Spectrum Visible-Light Photocatalytic Degradation of Antibiotic Oxytetracycline Hydrochloride |
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