Methane adsorption capacity on graphene derived from glucose and ferric chloride

This study examines the methane adsorption capacity using graphene derived from glucose and ferric chloride (FeCl3). The graphene was prepared via simple method by dissolution of glucose and FeCl3 in water, vaporization of water in oven, and calcination process in quartz furnace. Graphene was succes...

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Hauptverfasser:	Ismail, M. S., Yusof, N., Yusop, M. Zamri, Ismail, A. F., Nasri, N. S., Othman, F. E. Che
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creator	Ismail, M. S. Yusof, N. Yusop, M. Zamri Ismail, A. F. Nasri, N. S. Othman, F. E. Che
description	This study examines the methane adsorption capacity using graphene derived from glucose and ferric chloride (FeCl3). The graphene was prepared via simple method by dissolution of glucose and FeCl3 in water, vaporization of water in oven, and calcination process in quartz furnace. Graphene was successfully produced with impregnation ratio of glucose and FeCl3 at 1:1 and calcination temperature of 650 °C. The prepared graphene subsequently underwent a volumetric adsorption setup, to measure the adsorption capacity of methane (CH4). The highest CH4 adsorption capacity obtained was 6.37 mmol/g at 3.5 bar and 298 K for 40 minutes. These result shows that the prepared graphene displayed good adsorption characteristic for CH4.
doi_str_mv	10.1063/1.5036851
format	Conference Proceeding
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S. ; Yusof, N. ; Yusop, M. Zamri ; Ismail, A. F. ; Nasri, N. S. ; Othman, F. E. Che</creator><contributor>Mamat, Mohamad Hafiz ; Mahmood, Mohamad Rusop ; Jafar, Salifairus Mohammad ; Nagaoka, Shiro ; Soga, Tetsuo</contributor><creatorcontrib>Ismail, M. S. ; Yusof, N. ; Yusop, M. Zamri ; Ismail, A. F. ; Nasri, N. S. ; Othman, F. E. Che ; Mamat, Mohamad Hafiz ; Mahmood, Mohamad Rusop ; Jafar, Salifairus Mohammad ; Nagaoka, Shiro ; Soga, Tetsuo</creatorcontrib><description>This study examines the methane adsorption capacity using graphene derived from glucose and ferric chloride (FeCl3). The graphene was prepared via simple method by dissolution of glucose and FeCl3 in water, vaporization of water in oven, and calcination process in quartz furnace. Graphene was successfully produced with impregnation ratio of glucose and FeCl3 at 1:1 and calcination temperature of 650 °C. The prepared graphene subsequently underwent a volumetric adsorption setup, to measure the adsorption capacity of methane (CH4). The highest CH4 adsorption capacity obtained was 6.37 mmol/g at 3.5 bar and 298 K for 40 minutes. 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The graphene was prepared via simple method by dissolution of glucose and FeCl3 in water, vaporization of water in oven, and calcination process in quartz furnace. Graphene was successfully produced with impregnation ratio of glucose and FeCl3 at 1:1 and calcination temperature of 650 °C. The prepared graphene subsequently underwent a volumetric adsorption setup, to measure the adsorption capacity of methane (CH4). The highest CH4 adsorption capacity obtained was 6.37 mmol/g at 3.5 bar and 298 K for 40 minutes. These result shows that the prepared graphene displayed good adsorption characteristic for CH4.</abstract><doi>10.1063/1.5036851</doi><tpages>4</tpages></addata></record>
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title	Methane adsorption capacity on graphene derived from glucose and ferric chloride
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