Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells

Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells

Magnetic nanocomposites have attracted increasing attention due to its widely applications in different areas in recent years. The conventional synthesis of magnetic nanocomposites is usually based on high temperature annealing technique from biomass. In this paper, a microwave method has been devel...

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Main Authors: Ying Zhang, Marina Z. Joel, Ying He, Daria Weathersby, Fengxiang Han, Gaurab Rimal, Jinke Tang, Qilin Dai
Format: Article
Language:English
Published: Elsevier 2019-09-01
Series:Materials Letters: X
Online Access:http://www.sciencedirect.com/science/article/pii/S2590150819300444
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spelling doaj-23b0b1626832461d8737b056883e194a2020-11-24T21:25:11ZengElsevierMaterials Letters: X2590-15082019-09-013Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cellsYing Zhang0Marina Z. Joel1Ying He2Daria Weathersby3Fengxiang Han4Gaurab Rimal5Jinke Tang6Qilin Dai7Department of Chemistry, Physics, and Atmospheric Sciences, Jackson State University, Jackson, MS 39217, USADepartment of Molecular Biophysics and Biochemistry, Yale University, New Haven, CT 06520, USAInstitute of Electronics, Chinese Academy of Science, Beijing 100190, ChinaDepartment of Chemistry, Physics, and Atmospheric Sciences, Jackson State University, Jackson, MS 39217, USADepartment of Chemistry, Physics, and Atmospheric Sciences, Jackson State University, Jackson, MS 39217, USADepartment of Physics & Astronomy, University of Wyoming Laramie, Wyoming 82071, USADepartment of Physics & Astronomy, University of Wyoming Laramie, Wyoming 82071, USADepartment of Chemistry, Physics, and Atmospheric Sciences, Jackson State University, Jackson, MS 39217, USA; Corresponding author.Magnetic nanocomposites have attracted increasing attention due to its widely applications in different areas in recent years. The conventional synthesis of magnetic nanocomposites is usually based on high temperature annealing technique from biomass. In this paper, a microwave method has been developed to prepare iron oxide based magnetic nanocomposites using ferric acetylacetonate ((Fe(acac)3), oleylamine (OAm), oleic acid (OA), and commercial biochar. The reaction is completed in several minutes. Composite structure composed of γ-Fe2O3 nanoparticles with the size of 6–17 nm and biochar is confirmed by TEM, SEM EDX element mapping images. The iron oxide size can be controlled by the microwave time and the ligand ratio. Magnetic properties of the magnetic nanocomposites are studied. The application of the prepared magnetic nanocomposites in magnetic concentration cells are tested with different magnetic fields and different biochar to iron oxide ratios. The method developed in this work on magnetic nanocomposite synthesis will not only facilitate the research progress of magnetic nanocomposite synthesis but also provide an alternative technique to be used in magnetic concentration cells. Keywords: Magnetic nanocomposites, Iron oxide nanoparticles, Microwave, Magnetic concentration cellshttp://www.sciencedirect.com/science/article/pii/S2590150819300444
collection DOAJ
language English
format Article
sources DOAJ
author Ying Zhang
Marina Z. Joel
Ying He
Daria Weathersby
Fengxiang Han
Gaurab Rimal
Jinke Tang
Qilin Dai
spellingShingle Ying Zhang
Marina Z. Joel
Ying He
Daria Weathersby
Fengxiang Han
Gaurab Rimal
Jinke Tang
Qilin Dai
Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells
Materials Letters: X
author_facet Ying Zhang
Marina Z. Joel
Ying He
Daria Weathersby
Fengxiang Han
Gaurab Rimal
Jinke Tang
Qilin Dai
author_sort Ying Zhang
title Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells
title_short Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells
title_full Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells
title_fullStr Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells
title_full_unstemmed Synthesis of Fe2O3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells
title_sort synthesis of fe2o3/biochar nanocomposites by microwave method for magnetic energy-storage concentration cells
publisher Elsevier
series Materials Letters: X
issn 2590-1508
publishDate 2019-09-01
description Magnetic nanocomposites have attracted increasing attention due to its widely applications in different areas in recent years. The conventional synthesis of magnetic nanocomposites is usually based on high temperature annealing technique from biomass. In this paper, a microwave method has been developed to prepare iron oxide based magnetic nanocomposites using ferric acetylacetonate ((Fe(acac)3), oleylamine (OAm), oleic acid (OA), and commercial biochar. The reaction is completed in several minutes. Composite structure composed of γ-Fe2O3 nanoparticles with the size of 6–17 nm and biochar is confirmed by TEM, SEM EDX element mapping images. The iron oxide size can be controlled by the microwave time and the ligand ratio. Magnetic properties of the magnetic nanocomposites are studied. The application of the prepared magnetic nanocomposites in magnetic concentration cells are tested with different magnetic fields and different biochar to iron oxide ratios. The method developed in this work on magnetic nanocomposite synthesis will not only facilitate the research progress of magnetic nanocomposite synthesis but also provide an alternative technique to be used in magnetic concentration cells. Keywords: Magnetic nanocomposites, Iron oxide nanoparticles, Microwave, Magnetic concentration cells
url http://www.sciencedirect.com/science/article/pii/S2590150819300444
work_keys_str_mv AT yingzhang synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
AT marinazjoel synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
AT yinghe synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
AT dariaweathersby synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
AT fengxianghan synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
AT gaurabrimal synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
AT jinketang synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
AT qilindai synthesisoffe2o3biocharnanocompositesbymicrowavemethodformagneticenergystorageconcentrationcells
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