Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol

Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol

Abstract Visible light active g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) ternary composite nanosheets were fabricated by facile co-precipitation routes. The density functional theory (DFT) computations investigated changes in geometry and electronic character of g-C3N4 with CeO2 and Fe3O4 addition...

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Main Authors: Jamshaid Rashid, Nadia Parveen, Aneela Iqbal, Saif Ullah Awan, Naseem Iqbal, Shamraiz Hussain Talib, Naveed Hussain, Bilal Akram, Ata Ulhaq, Bilal Ahmed, Ming Xu
Format: Article
Language:English
Published: Nature Publishing Group 2019-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-019-46544-7
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spelling doaj-6614de4993f84536a781b3e1da7baa6b2020-12-08T08:59:52ZengNature Publishing GroupScientific Reports2045-23222019-07-019111410.1038/s41598-019-46544-7Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-ChlorophenolJamshaid Rashid0Nadia Parveen1Aneela Iqbal2Saif Ullah Awan3Naseem Iqbal4Shamraiz Hussain Talib5Naveed Hussain6Bilal Akram7Ata Ulhaq8Bilal Ahmed9Ming Xu10Department of Environmental Science, Faculty of Biological Sciences, Quaid-i-Azam UniversityDepartment of Environmental Science, Faculty of Biological Sciences, Quaid-i-Azam UniversityKey Laboratory of Geospatial Technology for the Middle and Lower Yellow River Regions, College of Environment and Planning, Henan UniversityDepartment of Electrical Engineering, NUST College of Electrical and Mechanical Engineering, National University of Science and Technology (NUST)US-Pakistan Centre for Advanced Studies in Energy (USPCAS-E), National University of Sciences and TechnologyDepartment of Chemistry, Tsinghua UniversityState Key Laboratory of New Ceramics and Fine Processing, School of Material Science and Engineering, Tsinghua UniversityDepartment of Chemistry, Tsinghua UniversityDepartment of Physics, Lahore University of Management Sciences (LUMS)Department of Physics, Lahore University of Management Sciences (LUMS)Key Laboratory of Geospatial Technology for the Middle and Lower Yellow River Regions, College of Environment and Planning, Henan UniversityAbstract Visible light active g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) ternary composite nanosheets were fabricated by facile co-precipitation routes. The density functional theory (DFT) computations investigated changes in geometry and electronic character of g-C3N4 with CeO2 and Fe3O4 addition. Chemical and surface characterizations were explored with XRD, XPS, SEM, TEM, PL, DRS and Raman measurements. DRS and PL spectroscopy evidenced the energy band gap tailoring from 2.68 eV for bulk g-C3N4 and 2.92 eV for CeO2 to 2.45 eV for the ternary nanocomposite. Efficient electron/hole pair separation, increase in red-ox species and high exploitation of solar spectrum due to band gap tailoring lead to higher degradation efficiency of g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) . Superior sun light photocatalytic breakdown of 2-Chlorophenol was observed with g-C3N4 having CeO2 loading up to 5 wt%. In case of ternary nanocomposites deposition of 1 wt% Fe3O4 over g-C3N4/CeO2 binary composite not only showed increment in visible light catalysis as predicted by the DFT studies, but also facilitated magnetic recovery. The g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) nanosheets showed complete mineralization of 25 mg.L−1 2-CP(aq) within 180 min exposure to visible portion of sun light and retained its high activity for 3 consecutive reuse cycles. The free radical scavenging showed superoxide ions and holes played a significant role compared to hydroxyl free radicals while chromatographic studies helped establish the 2-CP degradation mechanism. The kinetics investigations revealed 2.55 and 4.04 times increased rate of reactions compared to pristine Fe3O4 and CeO2, showing highest rate constant value of 18.2 × 10−3 min−1 for the ternary nanocomposite. We present very persuasive results that can be beneficial for exploration of further potential of g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) in advance wastewater treatment systems.https://doi.org/10.1038/s41598-019-46544-7
collection DOAJ
language English
format Article
sources DOAJ
author Jamshaid Rashid
Nadia Parveen
Aneela Iqbal
Saif Ullah Awan
Naseem Iqbal
Shamraiz Hussain Talib
Naveed Hussain
Bilal Akram
Ata Ulhaq
Bilal Ahmed
Ming Xu
spellingShingle Jamshaid Rashid
Nadia Parveen
Aneela Iqbal
Saif Ullah Awan
Naseem Iqbal
Shamraiz Hussain Talib
Naveed Hussain
Bilal Akram
Ata Ulhaq
Bilal Ahmed
Ming Xu
Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol
Scientific Reports
author_facet Jamshaid Rashid
Nadia Parveen
Aneela Iqbal
Saif Ullah Awan
Naseem Iqbal
Shamraiz Hussain Talib
Naveed Hussain
Bilal Akram
Ata Ulhaq
Bilal Ahmed
Ming Xu
author_sort Jamshaid Rashid
title Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol
title_short Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol
title_full Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol
title_fullStr Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol
title_full_unstemmed Facile synthesis of g-C3N4(0.94)/CeO2(0.05)/Fe3O4(0.01) nanosheets for DFT supported visible photocatalysis of 2-Chlorophenol
title_sort facile synthesis of g-c3n4(0.94)/ceo2(0.05)/fe3o4(0.01) nanosheets for dft supported visible photocatalysis of 2-chlorophenol
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2019-07-01
description Abstract Visible light active g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) ternary composite nanosheets were fabricated by facile co-precipitation routes. The density functional theory (DFT) computations investigated changes in geometry and electronic character of g-C3N4 with CeO2 and Fe3O4 addition. Chemical and surface characterizations were explored with XRD, XPS, SEM, TEM, PL, DRS and Raman measurements. DRS and PL spectroscopy evidenced the energy band gap tailoring from 2.68 eV for bulk g-C3N4 and 2.92 eV for CeO2 to 2.45 eV for the ternary nanocomposite. Efficient electron/hole pair separation, increase in red-ox species and high exploitation of solar spectrum due to band gap tailoring lead to higher degradation efficiency of g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) . Superior sun light photocatalytic breakdown of 2-Chlorophenol was observed with g-C3N4 having CeO2 loading up to 5 wt%. In case of ternary nanocomposites deposition of 1 wt% Fe3O4 over g-C3N4/CeO2 binary composite not only showed increment in visible light catalysis as predicted by the DFT studies, but also facilitated magnetic recovery. The g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) nanosheets showed complete mineralization of 25 mg.L−1 2-CP(aq) within 180 min exposure to visible portion of sun light and retained its high activity for 3 consecutive reuse cycles. The free radical scavenging showed superoxide ions and holes played a significant role compared to hydroxyl free radicals while chromatographic studies helped establish the 2-CP degradation mechanism. The kinetics investigations revealed 2.55 and 4.04 times increased rate of reactions compared to pristine Fe3O4 and CeO2, showing highest rate constant value of 18.2 × 10−3 min−1 for the ternary nanocomposite. We present very persuasive results that can be beneficial for exploration of further potential of g-C 3 N 4(0.94) /CeO 2(0.05) /Fe 3 O 4(0.01) in advance wastewater treatment systems.
url https://doi.org/10.1038/s41598-019-46544-7
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