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Harpreet Kaur,Satnam Singh,Bonamali Pal 한국화학공학회 2021 Korean Journal of Chemical Engineering Vol.38 No.6
Layered double hydroxides are traditional positively charged inorganic materials generally considered as efficient and low-cost adsorbents for the removal of anionic organic molecules. In this study, we prepared a series of g- C3N4@NiCo LDH composites by loading 10-30 wt% of g-C3N4 onto the LDH through the electrostatic self-assembly method. The bare LDH and g-C3N4 loaded LDH composites were characterized by XRD, SEM-EDS, Zeta, DLS, and FTIR techniques. Results revealed that extra peak corresponds to g-C3N4 originating in the XRD patterns, distorted morphology of LDH, reduction in positive surface zeta potential, and enhancement in hydrodynamic size after loading of g-C3N4 affirmed the successful formation of the composite. The adsorption performance of as-modified LDH was evaluated by removing the most commonly used salicylic acid and methylene blue as anionic and cationic model pollutant, respectively, from aqueous solution. The adsorption mechanism for both the pollutants by as-synthesized samples follows Langmuir isotherm. The results demonstrated that the bare LDH exhibited maximum adsorption efficiency of 75.16mg/g and only 3.66mg/g for salicylic acid and methylene blue, respectively. With 30 wt% loading of g- C3N4, the adsorption capacity for methylene blue increased to 25.16mg/g almost 6-7 times higher than that of bare LDH. On the other hand, the opposite effect on adsorptive removal of salicylic acid was observed with increase in the wt% loading of g-C3N4. With 30 wt% loading of g-C3N4, the adsorption capacity for salicylic acid decreased to 38.37mg/g, almost half that of bare LDH. A possible mechanism has been proposed. The kinetics for adsorption of salicylic acid onto bare LDH obeys the second-order model aside from the methylene blue adsorption which follows first-order kinetics. On the other hand, the kinetics of adsorption for both the pollutants onto (10-30) CN- LDH composites follows second order kinetics.
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Rayees Ahmad Rather,Satnam Singh,Bonamali Pal 한국공업화학회 2016 Journal of Industrial and Engineering Chemistry Vol.37 No.-
The core–shell morphology of graphene oxide (GO) coated Au-TiO2 (Au-TiO2@GO) nanocatalysts hasdisplayed enhanced photocatalytic activity for hydrogen production from water. The structuralmorphology of Au-TiO2@GO revealed a thin layer ( 2.5 nm) of GO shell over Au-TiO2 core, possessinghigher specific surface area ( 100 m2 g 1). Raman spectroscopy revealed bands at 1593 cm 1 and1317 cm 1 corresponding to G and D lines. GO facilitates decreases in the rate of e /h+ recombinationdue to its reduction potential and Au loading increase sensitization of TiO2 in the visible light resulting inthe increased activity for H2 production ( 114 mmol) from the water.
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