eprintid: 9932 rev_number: 2 eprint_status: archive userid: 1 dir: disk0/00/00/99/32 datestamp: 2023-11-09 16:36:34 lastmod: 2023-11-09 16:36:34 status_changed: 2023-11-09 16:30:10 type: conference_item metadata_visibility: show creators_name: Yau, X.H. creators_name: Khe, C.S. creators_name: Mohamed Saheed, M.S. creators_name: Lai, C.W. title: Effect on the Formation of Magnetite Reduced Graphene Oxide with Controlled Stirring Duration ispublished: pub keywords: Crystal structure; Fourier transform infrared spectroscopy; Iron compounds; Magnetite; Magnetite nanoparticles; Nanocomposites; Redox reactions; Scanning electron microscopy; Vibration analysis, Continuous stirrings; Electronic device; Energy storage and conversions; Fourier transform infrared; Hybrids material; Large amounts; Reduced graphene oxides; Synthesis process, Graphene note: cited By 0; Conference of 2018 International Conference on Aeronautical, Aerospace and Mechanical Engineering, AAME 2018 ; Conference Date: 28 June 2018 Through 30 June 2018; Conference Code:140317 abstract: Graphene is a promising material due to its fascinating properties, such as mechanical, electronic and thermal properties. Graphene based hybrids materials also have been widely studied due to its wide applications, such as sensors, energy storage and conversion, electronic device and others. The current study presents the synthesis of magnetite-reduced graphene oxide (M-rGO) nanocomposites through in situ chemical synthesis at different stirring durations. This synthesis process involves the redox reaction between the iron(II) salts and graphene oxide (GO) sheets. Various techniques were employed to characterize the synthesized M-rGO nanocomposites. From X-ray diffraction (XRD) results, the crystal structure of M-rGO was found to be independent on the stirring duration. Three magnetite vibrations, D band and G band were observed in Raman spectrum of M-rGO with 24 hours stirring duration. From Fourier transform infrared (FTIR) analysis, M-rGO with 24 hours stirring duration showed the strong intensity of Fe-O vibration. Thus, this indicated that a large amount of magnetite nanoparticles were covered on the surface of rGO sheets. This result is further supported by the morphology of nanocomposites from scanning electron microscopy (SEM) and the elemental analysis (EDX). A monolayer of rGO sheet (C= 33.79 atomic ) with full coverage of magnetite nanoparticles (Fe= 30.20 atomic ) was found for the M-rGO with 24 hours stirring duration. Overall, M-rGO require 24 hours of continuous stirring to ensure full coverage of magnetite nanoparticles on the surface of rGO sheets. © 2018 The Authors, published by EDP Sciences. date: 2018 publisher: EDP Sciences official_url: https://www.scopus.com/inward/record.uri?eid=2-s2.0-85054995082&doi=10.1051%2fmatecconf%2f201820201003&partnerID=40&md5=860d3b60ea7dbf22b2459eade1671973 id_number: 10.1051/matecconf/201820201003 full_text_status: none publication: MATEC Web of Conferences volume: 202 refereed: TRUE issn: 2261236X citation: Yau, X.H. and Khe, C.S. and Mohamed Saheed, M.S. and Lai, C.W. (2018) Effect on the Formation of Magnetite Reduced Graphene Oxide with Controlled Stirring Duration. In: UNSPECIFIED.