Your search keyword '"Muhammed, Fermil"' showing total 4 results

1. Graphitic carbon nitride based fluorine-free hydrophobic sponges for the mitigation of microplastics, oil spillage, and harmful microbial growth in water

Author

Viswanathan, Shalini, Pallikkara, Anooj Anil, Muhammed, Fermil, and Kallingal, Aparna

Published

2024

2. Thermally curled g-CN fibers for the simultaneous removal of Rhodamine B, Methylene blue, and Methyl orange from the ternary dye mixture.

Author

Shalini, V., Swathi, A. C., Anil, P. Anooj, Muhammed, Fermil, Sri, Majji Kavya, and Aparna, K.

Subjects

METHYLENE blue, RHODAMINE B, NITRIDES, FIBERS, PHOTODEGRADATION, X-ray diffraction, NANOTUBES, DYES & dyeing

Abstract

Graphitic carbon nitride (g-CN) nanotubes are considered to be one of the most promising advanced materials with a plethora of environmental applications due to their unique structure. In this study, a simple water-induced morphology transformation method was adopted to synthesize thermally curled graphitic carbon nitride (t-GCN) sheets. The synthesized sample was characterized by XRD, SEM, FTIR, and BET analysis. The photocatalytic application of the t-GCN was studied by the degradation of a ternary dye mixture consisting of 5 ppm solutions of Rhodamine B (RB), Methylene blue (MB), and Methyl orange (MO). The degradation shows that all three dyes were successfully degraded within 90 min with the apparent reaction rate constants of 0.02184 min−1, 0.02975 min−1, and 0.04236 min−1, respectively, for MO, RB, and MB. The degradation rate constants were ∼1.2 times greater than the g-CN counterpart. The tubular structure of the t-GCN provided better charge separation and special charge migration resulting in enhanced photocatalytic degradation as compared to the g-CN sheets. [ABSTRACT FROM AUTHOR]

Published

2024

3. TiO2 / Graphitic carbon nitride Z-scheme catalyst for binary dye degradation by persulphate activation.

Author

Viswanathan, Shalini, Anil Pallikkara, Anooj, Muhammed, Fermil, Kavya Sri, Majji, and Aparna, K

Published

2024

4. TiO2/ Graphitic carbon nitride Z-scheme catalyst for binary dye degradation by persulphate activation

Author

Viswanathan, Shalini, Anil Pallikkara, Anooj, Muhammed, Fermil, Kavya Sri, Majji, and Aparna, K

Abstract

In this work, we describe the preparation of the TiO2(P25) / Graphitic Carbon Nitride composite and the degradation of pollutants using this composite with persulphate activation. The materials are characterized by XRD, FTIR analysis, etc. XRD analysis confirms the presence of TiO2anatase and GCN and the characteristic functional groups of both TiO2and GCN are determined with the help of FTIR. The degradation of crystal violet and Rhodamine B in binary mixtures over this synthesized catalyst is easier than individual catalysts separately. The degradation efficiency of crystal violet over TiO2/GCN composite is 1.5 times higher than GCN and 3 times higher than TiO2alone and the degradation efficiency of Rhodamine B over TiO2/GCN composite is 1.1 times higher than GCN and 2.4 times higher than TiO2alone. In flat band analysis, a Z-Scheme catalyst is formed between TiO2and GCN. The electron transfer between the bands of TiO2and GCN occurs because of proper band alignment between these materials.

Published

2024