MAGNETITE/REDUCED GRAPHENE OXIDE SYNTHESIS AND STUDY AS A POTENTIAL ADSORBENT FOR ABSORPTIVE REMOVAL OF HEAVY METALS
Eldamhogy, S., Tantawy, H., Elkorashy, S., Abdel Aal, N. (2022). MAGNETITE/REDUCED GRAPHENE OXIDE SYNTHESIS AND STUDY AS A POTENTIAL ADSORBENT FOR ABSORPTIVE REMOVAL OF HEAVY METALS. EKB Journal Management System, 2(2), 20-31. doi: 10.21608/aels.2022.163120.1019
Sherif F Eldamhogy; Hisham Ramzy Tantawy; Sabry Abd El-hamid Elkorashy; Nadia Fathi Abdel Aal. "MAGNETITE/REDUCED GRAPHENE OXIDE SYNTHESIS AND STUDY AS A POTENTIAL ADSORBENT FOR ABSORPTIVE REMOVAL OF HEAVY METALS". EKB Journal Management System, 2, 2, 2022, 20-31. doi: 10.21608/aels.2022.163120.1019
Eldamhogy, S., Tantawy, H., Elkorashy, S., Abdel Aal, N. (2022). 'MAGNETITE/REDUCED GRAPHENE OXIDE SYNTHESIS AND STUDY AS A POTENTIAL ADSORBENT FOR ABSORPTIVE REMOVAL OF HEAVY METALS', EKB Journal Management System, 2(2), pp. 20-31. doi: 10.21608/aels.2022.163120.1019
Eldamhogy, S., Tantawy, H., Elkorashy, S., Abdel Aal, N. MAGNETITE/REDUCED GRAPHENE OXIDE SYNTHESIS AND STUDY AS A POTENTIAL ADSORBENT FOR ABSORPTIVE REMOVAL OF HEAVY METALS. EKB Journal Management System, 2022; 2(2): 20-31. doi: 10.21608/aels.2022.163120.1019

MAGNETITE/REDUCED GRAPHENE OXIDE SYNTHESIS AND STUDY AS A POTENTIAL ADSORBENT FOR ABSORPTIVE REMOVAL OF HEAVY METALS

Advances in Environmental and Life Sciences
Volume 2, Issue 2, November 2022, Page 20-31  XML PDF (4.86 MB)
Document Type: Original research articles
DOI: 10.21608/aels.2022.163120.1019
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Authors
Sherif F Eldamhogy email 1; Hisham Ramzy Tantawy2; Sabry Abd El-hamid Elkorashy1; Nadia Fathi Abdel Aal1
1Chemistry Department, Faculty of Science, Suez Canal University, 41522, Ismailia, Egypt
2Chemial engineering department, Military Technical college
Abstract
Owing to its exceptional properties, graphene, a planar layer of sp2-bonded carbon atoms, attracted interest of researchers. A distinct matrix for nanocomposites, graphene has exceptional chemical endurance, high surface/volume ratio, and strong electrical conductivity. Due of their versatility, research in recent years has focused on incorporating graphene with appropriate materials. In this study, Improved Hummer method utilized in synthesizing graphene oxide (GO).  An appropriate chemical reducing agent was used to synthesize (RGO). Magnetite was prepared from ferrous ammonium sulfate and ((NH4)2Fe(SO4)26H2O) to ferric chloride (FeCl3), then by co-precipitation method Magnetite Reduced Graphene Oxide (MRG) was synthesized with different amounts of RGO relative to magnetite (5, 10, and 30% wt. %) To prepare (MRG 5, 10, and 30%). Samples were morphologically characterized using a (HRTEM). Additionally, Raman and FTIR spectroscopy were used to identify the samples' chemical composition. Using (XRD), samples' crystallographic was identified. To ascertain the magnetic behavior, (VSM) was employed. Furthermore, fluctuation in metal ions concentration vs adsorption time was studied by UV-VIS spectrophotometer. Research findings demonstrated produced nano-composites' great adsorption potential even higher than both RGO and magnetite, the nano-composites demonstrated a synergistic effect that enhanced the composite's adsorption effectiveness. A 30% RGO sample was found to have the max adsorption activity for Cr (VI), Cu (II), and Mn (VII) with values of % removal 68, 80, and 70% respectively at PH =9 which make (MRG30) the ideal sample for heavy metal removal.
Keywords
Graphene; Magnetite Reduced Graphene oxide composite; Adsorption; Waste water treatment; Removal of Heavy metals
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