Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode

The effect of particle sizes of Mg on Magnesium-Graphene nano sheets (Mg-GNS (C-π)) interaction when used as an anode of primary battery was evaluated. GNS was synthesized using the modified Hummers method, while Mg/GNS composite with 10–40% Mg was prepared by a facile impregnation method. XRD data...

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Main Authors: Siburian, Rikson, Paiman, Suriati, Hutagalung, Fajar, Ali, Ab Malik Marwan, Simatupang, Lisnawaty, Goei, Ronn, Rusop, Mohamad Mahmood
Other Authors: School of Materials Science and Engineering
Format: Article
Language:English
Published: 2023
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Online Access:https://hdl.handle.net/10356/164854
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1648542023-07-14T16:07:58Z Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode Siburian, Rikson Paiman, Suriati Hutagalung, Fajar Ali, Ab Malik Marwan Simatupang, Lisnawaty Goei, Ronn Rusop, Mohamad Mahmood School of Materials Science and Engineering Engineering::Materials Anode Primary Battery Electrical Conductivity The effect of particle sizes of Mg on Magnesium-Graphene nano sheets (Mg-GNS (C-π)) interaction when used as an anode of primary battery was evaluated. GNS was synthesized using the modified Hummers method, while Mg/GNS composite with 10–40% Mg was prepared by a facile impregnation method. XRD data of Mg/GNS shows peaks of C(002) and Mg(102) at 2θ = 26.77° and 44.69°, respectively, indicating Mg metals were successfully introduced onto GNS surfaces. These data are consistent with the EDX spectrum which shows peaks of C (0.277 keV) and Mg (1.253 keV). Mg 10%/GNS (3.871 μm) and Mg 30%/GNS (4.485 μm) have the smallest and largest metal particle size deposited, respectively. Mg 10%/GNS (62.9 μS/cm2) has a higher electrical conductivity value than the bare GNS (61.4 μS/cm2) and commercial primary battery anode (Zn plate, 35 μS/cm2). The results obtained show that GNS is able to modify the metallic character of Mg (p-s interaction). Furthermore, the presence of Mg metal deposition on the GNS surface is able to produce Mg/GNS with increased electrical conductivity so that it could be used as an alternative anode primary battery. Published version We would like to thankful to Direktur Sumber Daya, Direktorat Jenderal Pendidikan Tinggi, Riset dan Teknologi and LPDP who Funding Support this research under World Class Professor (WCP) Skim Program Nomor 2817/E4.1/KK.04.05/2021. 2023-02-20T06:42:08Z 2023-02-20T06:42:08Z 2022 Journal Article Siburian, R., Paiman, S., Hutagalung, F., Ali, A. M. M., Simatupang, L., Goei, R. & Rusop, M. M. (2022). Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode. Colloids and Interface Science Communications, 48, 100612-. https://dx.doi.org/10.1016/j.colcom.2022.100612 2215-0382 https://hdl.handle.net/10356/164854 10.1016/j.colcom.2022.100612 2-s2.0-85126143305 48 100612 en Colloids and Interface Science Communications © 2022 The authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/) application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Materials
Anode Primary Battery
Electrical Conductivity
spellingShingle Engineering::Materials
Anode Primary Battery
Electrical Conductivity
Siburian, Rikson
Paiman, Suriati
Hutagalung, Fajar
Ali, Ab Malik Marwan
Simatupang, Lisnawaty
Goei, Ronn
Rusop, Mohamad Mahmood
Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode
description The effect of particle sizes of Mg on Magnesium-Graphene nano sheets (Mg-GNS (C-π)) interaction when used as an anode of primary battery was evaluated. GNS was synthesized using the modified Hummers method, while Mg/GNS composite with 10–40% Mg was prepared by a facile impregnation method. XRD data of Mg/GNS shows peaks of C(002) and Mg(102) at 2θ = 26.77° and 44.69°, respectively, indicating Mg metals were successfully introduced onto GNS surfaces. These data are consistent with the EDX spectrum which shows peaks of C (0.277 keV) and Mg (1.253 keV). Mg 10%/GNS (3.871 μm) and Mg 30%/GNS (4.485 μm) have the smallest and largest metal particle size deposited, respectively. Mg 10%/GNS (62.9 μS/cm2) has a higher electrical conductivity value than the bare GNS (61.4 μS/cm2) and commercial primary battery anode (Zn plate, 35 μS/cm2). The results obtained show that GNS is able to modify the metallic character of Mg (p-s interaction). Furthermore, the presence of Mg metal deposition on the GNS surface is able to produce Mg/GNS with increased electrical conductivity so that it could be used as an alternative anode primary battery.
author2 School of Materials Science and Engineering
author_facet School of Materials Science and Engineering
Siburian, Rikson
Paiman, Suriati
Hutagalung, Fajar
Ali, Ab Malik Marwan
Simatupang, Lisnawaty
Goei, Ronn
Rusop, Mohamad Mahmood
format Article
author Siburian, Rikson
Paiman, Suriati
Hutagalung, Fajar
Ali, Ab Malik Marwan
Simatupang, Lisnawaty
Goei, Ronn
Rusop, Mohamad Mahmood
author_sort Siburian, Rikson
title Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode
title_short Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode
title_full Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode
title_fullStr Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode
title_full_unstemmed Facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode
title_sort facile method to synthesize of magnesium-graphene nano sheets for candidate of primary battery electrode
publishDate 2023
url https://hdl.handle.net/10356/164854
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