Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites

Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites

Abstract The hydrothermal process was used to prepare Mn3O4/x%GO nanocomposites (NC’s) having different ratios of the Mn3O4 nanoparticles (NP’s) on the surface of graphene oxide (GO) sheet. SEM image showed that the Mn3O4 NP’s were distributed over the surface of GO sheet. HRTEM images exhibited the...

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Main Authors: Tanawat Imboon, Jeerawan Khumphon, Khrongkhwan Yotkuna, I-Ming Tang, Sirikanjana Thongmee
Format: Article
Language:English
Published: Springer 2021-05-01
Series:SN Applied Sciences
Subjects:
GO sheet
Mn3O4 NP’s
Mn3O4/x%GO NC’s
Photo-catalytic activity
Photoluminescence spectra
Nanoparticles
Online Access:https://doi.org/10.1007/s42452-021-04644-y
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spelling doaj-4641ba11903f4be5b3d650fb5c673a962021-05-23T11:20:41ZengSpringerSN Applied Sciences2523-39632523-39712021-05-013611910.1007/s42452-021-04644-yEnhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocompositesTanawat Imboon0Jeerawan Khumphon1Khrongkhwan Yotkuna2I-Ming Tang3Sirikanjana Thongmee4Department of Physics, Faculty of Science, Kasetsart UniversityDepartment of Physics, Faculty of Science, Kasetsart UniversityDepartment of Physics, Faculty of Science, Kasetsart UniversityDepartment of Physics, Faculty of Science, Mahidol UniversityDepartment of Physics, Faculty of Science, Kasetsart UniversityAbstract The hydrothermal process was used to prepare Mn3O4/x%GO nanocomposites (NC’s) having different ratios of the Mn3O4 nanoparticles (NP’s) on the surface of graphene oxide (GO) sheet. SEM image showed that the Mn3O4 NP’s were distributed over the surface of GO sheet. HRTEM images exhibited the lattice fringe arising from the (101) plane of the Mn3O4 NP’s having the interplanar d-spacing of 0.49 nm decorating on the surface of GO. The electronic absorption spectra of Mn3O4/x%GO NC’s also show broad bands from 250 to 550 nm. These bands arise from the d–d crystal field transitions of the tetrahedral Mn3+ species and indicate a distortion in the crystal structure. Photo-catalytic activity of spinel ferrite Mn3O4 NP’s by themselves was low but photo-catalytic activity is enhanced when the NP’s are decorating the GO sheet. Moreover, the Mn3O4/10%GO NC’s showed the best photo-catalytic activity. This result comes from the formation of Mn–O–C bond that confirm by FT-IR. This bond would facilitate the transfer of the photoelectrons from the surfaces of the NP’s to the GO sheets. PL emission which is in the violet–red luminescent region shows the creation of defects in the fabricated Mn3O4 NP’s nanostructures. These defects create the defect states to which electrons in the VB can be excited to when the CB. The best degradation efficiency was achieved by the Mn3O4 NP’s when they were used to decorate the GO sheets in the Mn3O4/10%GO NC’s solution. Highlights 1. Lattice fringe of Mn3O4 with an interplanar d-spacing of 0.49 nm for (101) plane. 2. Photocatalytic activity of spinel ferrite Mn3O4 nanoparticles by itself is low. 3. Number of photoelectrons created depends on number of Mn3O4 on a given area of GO 4. The bonding of the Mn3O4 to the GO sheet would be though a Mn–O–C junction. 5. The degradation processes were accelerated by Mn3O4/10%GO nanocomposites Graphic abstracthttps://doi.org/10.1007/s42452-021-04644-yGO sheetMn3O4 NP’sMn3O4/x%GO NC’sPhoto-catalytic activityPhotoluminescence spectraNanoparticles
collection DOAJ
language English
format Article
sources DOAJ
author Tanawat Imboon
Jeerawan Khumphon
Khrongkhwan Yotkuna
I-Ming Tang
Sirikanjana Thongmee
spellingShingle Tanawat Imboon
Jeerawan Khumphon
Khrongkhwan Yotkuna
I-Ming Tang
Sirikanjana Thongmee
Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites
SN Applied Sciences
GO sheet
Mn3O4 NP’s
Mn3O4/x%GO NC’s
Photo-catalytic activity
Photoluminescence spectra
Nanoparticles
author_facet Tanawat Imboon
Jeerawan Khumphon
Khrongkhwan Yotkuna
I-Ming Tang
Sirikanjana Thongmee
author_sort Tanawat Imboon
title Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites
title_short Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites
title_full Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites
title_fullStr Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites
title_full_unstemmed Enhancement of photocatalytic by Mn3O4 spinel ferrite decorated graphene oxide nanocomposites
title_sort enhancement of photocatalytic by mn3o4 spinel ferrite decorated graphene oxide nanocomposites
publisher Springer
series SN Applied Sciences
issn 2523-3963
2523-3971
publishDate 2021-05-01
description Abstract The hydrothermal process was used to prepare Mn3O4/x%GO nanocomposites (NC’s) having different ratios of the Mn3O4 nanoparticles (NP’s) on the surface of graphene oxide (GO) sheet. SEM image showed that the Mn3O4 NP’s were distributed over the surface of GO sheet. HRTEM images exhibited the lattice fringe arising from the (101) plane of the Mn3O4 NP’s having the interplanar d-spacing of 0.49 nm decorating on the surface of GO. The electronic absorption spectra of Mn3O4/x%GO NC’s also show broad bands from 250 to 550 nm. These bands arise from the d–d crystal field transitions of the tetrahedral Mn3+ species and indicate a distortion in the crystal structure. Photo-catalytic activity of spinel ferrite Mn3O4 NP’s by themselves was low but photo-catalytic activity is enhanced when the NP’s are decorating the GO sheet. Moreover, the Mn3O4/10%GO NC’s showed the best photo-catalytic activity. This result comes from the formation of Mn–O–C bond that confirm by FT-IR. This bond would facilitate the transfer of the photoelectrons from the surfaces of the NP’s to the GO sheets. PL emission which is in the violet–red luminescent region shows the creation of defects in the fabricated Mn3O4 NP’s nanostructures. These defects create the defect states to which electrons in the VB can be excited to when the CB. The best degradation efficiency was achieved by the Mn3O4 NP’s when they were used to decorate the GO sheets in the Mn3O4/10%GO NC’s solution. Highlights 1. Lattice fringe of Mn3O4 with an interplanar d-spacing of 0.49 nm for (101) plane. 2. Photocatalytic activity of spinel ferrite Mn3O4 nanoparticles by itself is low. 3. Number of photoelectrons created depends on number of Mn3O4 on a given area of GO 4. The bonding of the Mn3O4 to the GO sheet would be though a Mn–O–C junction. 5. The degradation processes were accelerated by Mn3O4/10%GO nanocomposites Graphic abstract
topic GO sheet
Mn3O4 NP’s
Mn3O4/x%GO NC’s
Photo-catalytic activity
Photoluminescence spectra
Nanoparticles
url https://doi.org/10.1007/s42452-021-04644-y
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AT jeerawankhumphon enhancementofphotocatalyticbymn3o4spinelferritedecoratedgrapheneoxidenanocomposites
AT khrongkhwanyotkuna enhancementofphotocatalyticbymn3o4spinelferritedecoratedgrapheneoxidenanocomposites
AT imingtang enhancementofphotocatalyticbymn3o4spinelferritedecoratedgrapheneoxidenanocomposites
AT sirikanjanathongmee enhancementofphotocatalyticbymn3o4spinelferritedecoratedgrapheneoxidenanocomposites
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