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Synthesis of Porous g-C₃N₄ and Its Application as Photocatalyst for Methylene Blue Degradation

Grace Yuhaneka, Ade Irma Rozafia, Wahyu Prasetyo Utomo, Ani Iryani, Djoko Hartanto

2022Malaysian Journal of Fundamental and Applied Sciences25 citationsDOIOpen Access PDF

Abstract

Graphitic carbon nitride (g-C3N4) is a photocatalyst possessing a unique layered structure, remarkable thermal and chemical stability, and tunable bandgap. However, the bulk g-C3N4 has limited active sites and fast electron-holes recombination. In this work, we prepared porous g-C3N4 with an enhanced photoactivity toward methylene blue (MB) degradation. The porous g-C3N4 were prepared from melamine with addition of various amount of citric acid as a pore-forming agent (0.0 mmole, 0.1 mmole, 0.2 mmole, and 0.3 mmole; assigned as g-C3N4-0, g-C3N4-1, g-C3N4-2, and g-C3N4-3, respectively). The structural and morphologycal properties of the samples were analyzed using XRD, SEM, FTIR, and N2 sorption. The optical property was analyzed using UV-vis diffuse reflectance and photoluminesence spectroscopy. While the electronic conductivity was analyzed using Mott-Schottky analysis and electron impedance spectroscopy (EIS). The photocatalytic test revealed that g-C3N4-2 exhibited the highest MB degradation rate (k=0.0090 min-1), while the bulk g-C3N4-0 showed the lowest rate (k=0.0068 min-1). The g-C3N4-2 possesed relatively smaller crystallite size (~43.5 nm) and a larger surface area (13.975 m2 g-1) compared to the bulk g-C3N4-0 (crystallite size: 46.9 nm; surface area: 9.163 m2 g-1). The optical property and charge carrier transfer analysis also revealed that the g-C3N4-2 possessed more efficient charge carrier transfer, which suppress the charge recombination. The combination between a larger surface area and more efficient charge carrier transfer contributes to the enhanced photocatalytic activity of porous g-C3N4 toward MB degradation.

Topics & Concepts

Graphitic carbon nitridePhotocatalysisMaterials scienceCrystalliteDielectric spectroscopyMethylene blueSpecific surface areaSorptionFourier transform infrared spectroscopyBand gapNuclear chemistryChemical engineeringChemistryOrganic chemistryAdsorptionPhysical chemistryElectrochemistryCatalysisElectrodeEngineeringMetallurgyOptoelectronicsAdvanced Photocatalysis TechniquesElectronic and Structural Properties of OxidesMXene and MAX Phase Materials