Master of Philosophy (M.Phil.)

Permanent URI for this collectionhttp://192.248.9.226/handle/123/18725

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Browsing Master of Philosophy (M.Phil.) by Subject "GRAPHENE"

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    item: Thesis-Abstract
    Synthesis of porous graphene from Sri Lankan graphite for supercapacitor applications
    (2022) Sandaruwani MKA; Sitinamaluwa HS; Galpaya GDD
    A feasible process to synthesize porous graphene with ultra-high surface area is presented in this thesis. Graphene oxide (GO) was synthesized from Sri Lankan graphite via the modified hummers method. Then, GO was subjected to a chemical activation process to produce graphene with a mesoporous structure, where KOH was used as the activation agent. The influence of the critical activation process parameters on the specific surface area of graphene was studied. In this study, activation time at 60 min, activation temperature at 800 ℃ and KOH/GO mass ratio at 4 were identified as the optimum activation parameters for high surface area. As an alternative route to find the specific surface area (SSA), a dye adsorption based SSA calculation method was followed, and the methylene blue adsorption kinetics were studied for that. Second order kinetic model and Langmuir isotherms were the most suitable kinetic models for the methylene blue adsorption onto porous graphene which were produced from Sri Lankan vein graphite. A combined mathematical model of methylene blue number (MBN) and iodine number (IN) was used to calculate the SSA for high accuracy. The obtained optimum activated graphene sample showed a high specific surface area of 768.15 m 2 /g as measured from the dye adsorption method and it was verified by BET analysis. Furthermore, methylene blue and Iodine adsorption methods are studied as a low-cost and feasible method for surface area determination of porous graphene. The high surface area of the obtained graphene would make it a promising material for supercapacitor applications. The present study mainly focuses on the value addition to Sri Lankan vein graphite trough the utilization of vein graphite as an electrode material in electrochemical double layer capacitor (EDLC).