Distribution model of iron (Fe) on Fe/Graphene nano sheets
In this paper, we report about the distribution model of Iron (Fe) atoms on Graphene Nano Sheets (GNS). The purpose of this research is to evaluate the performance of Fe/GNS in terms of the distribution of Fe atoms on the graphene surface. GNS and Fe/GNS were prepared with modified Hummer's and...
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sg-ntu-dr.10356-1723082023-12-05T07:45:44Z Distribution model of iron (Fe) on Fe/Graphene nano sheets Siburian, Rikson Goei, Ronn Manurung, Hana Aritonang, Sri Pratiwi Simanjuntak, Crystina Hutagalung, Fajar Anshori, Isa Alias, Yatimah Paiman, Suriati Affi, Jon Tok, Alfred Iing Yoong School of Materials Science and Engineering Engineering::Materials Graphene Nano Sheets Distribution of Fe Atoms On GNS In this paper, we report about the distribution model of Iron (Fe) atoms on Graphene Nano Sheets (GNS). The purpose of this research is to evaluate the performance of Fe/GNS in terms of the distribution of Fe atoms on the graphene surface. GNS and Fe/GNS were prepared with modified Hummer's and impregnation methods, respectively. We found that the morphology of graphite is different compare to GNS where GNS has thin layers and no stacking sheets (Scanning Electron Microscope (SEM) data) and it contains majority Carbon (C) element (more than 90 wt%) (EDX data). The X-Ray Diffraction (XRD) data of GNS shows the appearance weak and broad peak on 2θ = 26.6o indicating GNS was formed, and the sharp peaks on 2θ = 43.84o prove that Fe atoms are well deposited on GNS (XRD data). Both SEM and XRD data prove GNS produced and Fe deposited on GNS. Further, we propose the distribution model of Fe atoms on GNS surfaces based on three steps. The first step is the Fe precursor react with GNS to produce Fe ions. The second step is Fe ions reduce while being deposited on GNS surfaces, generating Fe clusters. Finally, Fe clusters migrate on the surfaces of GNS to form Fe particles. The smallest Fe crystal size in Fe/GNS is at 3.81% Fe (1.5009 nm) and distributed into GNS. Based on those data, GNS was found to affect the properties of Fe metal. All of the authors would like thank to Rector of Universitas Sumatera Utara - Indonesia who supporting this research under Scheme C, Program Penelitian Riset Kolaborasi Indonesia (RKI) 2022, Nomor 9420/ UN5.1.R/SK/PAP/2022. 2023-12-05T07:45:44Z 2023-12-05T07:45:44Z 2023 Journal Article Siburian, R., Goei, R., Manurung, H., Aritonang, S. P., Simanjuntak, C., Hutagalung, F., Anshori, I., Alias, Y., Paiman, S., Affi, J. & Tok, A. I. Y. (2023). Distribution model of iron (Fe) on Fe/Graphene nano sheets. Ceramics International, 49(17), 28571-28579. https://dx.doi.org/10.1016/j.ceramint.2023.06.110 0272-8842 https://hdl.handle.net/10356/172308 10.1016/j.ceramint.2023.06.110 2-s2.0-85162124610 17 49 28571 28579 en Ceramics International © 2023 Elsevier Ltd and Techna Group S.r.l. All rights reserved. |
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Engineering::Materials Graphene Nano Sheets Distribution of Fe Atoms On GNS Siburian, Rikson Goei, Ronn Manurung, Hana Aritonang, Sri Pratiwi Simanjuntak, Crystina Hutagalung, Fajar Anshori, Isa Alias, Yatimah Paiman, Suriati Affi, Jon Tok, Alfred Iing Yoong Distribution model of iron (Fe) on Fe/Graphene nano sheets |
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In this paper, we report about the distribution model of Iron (Fe) atoms on Graphene Nano Sheets (GNS). The purpose of this research is to evaluate the performance of Fe/GNS in terms of the distribution of Fe atoms on the graphene surface. GNS and Fe/GNS were prepared with modified Hummer's and impregnation methods, respectively. We found that the morphology of graphite is different compare to GNS where GNS has thin layers and no stacking sheets (Scanning Electron Microscope (SEM) data) and it contains majority Carbon (C) element (more than 90 wt%) (EDX data). The X-Ray Diffraction (XRD) data of GNS shows the appearance weak and broad peak on 2θ = 26.6o indicating GNS was formed, and the sharp peaks on 2θ = 43.84o prove that Fe atoms are well deposited on GNS (XRD data). Both SEM and XRD data prove GNS produced and Fe deposited on GNS. Further, we propose the distribution model of Fe atoms on GNS surfaces based on three steps. The first step is the Fe precursor react with GNS to produce Fe ions. The second step is Fe ions reduce while being deposited on GNS surfaces, generating Fe clusters. Finally, Fe clusters migrate on the surfaces of GNS to form Fe particles. The smallest Fe crystal size in Fe/GNS is at 3.81% Fe (1.5009 nm) and distributed into GNS. Based on those data, GNS was found to affect the properties of Fe metal. |
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School of Materials Science and Engineering |
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School of Materials Science and Engineering Siburian, Rikson Goei, Ronn Manurung, Hana Aritonang, Sri Pratiwi Simanjuntak, Crystina Hutagalung, Fajar Anshori, Isa Alias, Yatimah Paiman, Suriati Affi, Jon Tok, Alfred Iing Yoong |
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Article |
author |
Siburian, Rikson Goei, Ronn Manurung, Hana Aritonang, Sri Pratiwi Simanjuntak, Crystina Hutagalung, Fajar Anshori, Isa Alias, Yatimah Paiman, Suriati Affi, Jon Tok, Alfred Iing Yoong |
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Siburian, Rikson |
title |
Distribution model of iron (Fe) on Fe/Graphene nano sheets |
title_short |
Distribution model of iron (Fe) on Fe/Graphene nano sheets |
title_full |
Distribution model of iron (Fe) on Fe/Graphene nano sheets |
title_fullStr |
Distribution model of iron (Fe) on Fe/Graphene nano sheets |
title_full_unstemmed |
Distribution model of iron (Fe) on Fe/Graphene nano sheets |
title_sort |
distribution model of iron (fe) on fe/graphene nano sheets |
publishDate |
2023 |
url |
https://hdl.handle.net/10356/172308 |
_version_ |
1784855554391277568 |