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Strychnos potatorum seeds derived magnetic graphene oxide nanocomposite for removal of nickel from wastewater: Adsorption performance, isotherm, kinetic and desorption behavior

Rameshbabu Janani, G. Baskar, Kandhasamy Sivakumar, Ponnusamy Senthilkumar

2024Desalination and Water Treatment14 citationsDOIOpen Access PDF

Abstract

In the present study investigates the adsorption of nickel ions by Strychnos potatorum seeds derived magnetic graphene oxide (SP-MGO). The fitness of the derived material was analyzed using BET and zeta seizer which proves the suitability of this adsorbent for adsorption process. The surface area, pore size and pore volume were obtained through BET analysis and the results were 51.798 (m 2 /g), 16.795 nm and 0.217 (cm 3 /g) respectively. And the size of the nanoparticle was measured using zeta seizer. For achieving maximum adsorption capacity, the following optimized conditions were; 60 min of contact time, under pH of 8, with 10 mg of SP-MGO dose, for the concentration of 10 mg/l, at the temperature of 35 °C. Freundlich isotherm (R 2 =0.999) and pseudo second order (R 2 =0.997) was well described the adsorption process. According to the isotherm model the adsorption of nickel ions occurs by multilayer of adsorption on heterogeneous surface of SP-MGO nanoadsorbent and also by chemisorption according to kinetic model. The Langmuir monolayer adsorption capacity (Q max ) obtained by SP-MGO was 6.66 mg/g. The regeneration ability of SP-MGO was only reduced 17.1 % even after five cycles of adsorption runs. Overall, the SP-MGO can be a potential option for develop into a commercial adsorbent for industrial use to eliminate the pollutants from waste water.

Topics & Concepts

AdsorptionGrapheneNanocompositeDesorptionNickelWastewaterOxideMaterials scienceNickel oxideChemical engineeringKinetic energyChemistryMetallurgyComposite materialOrganic chemistryNanotechnologyEnvironmental engineeringEnvironmental scienceQuantum mechanicsPhysicsEngineeringAdsorption and biosorption for pollutant removalNanomaterials for catalytic reactions