The Structural, Optical and Thermal Characterization of g-C3N4 for Photocatalysis
- Authors
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Ramanand Sharma
Kamla Modi Govt Girl’s College, Neem ka Thana, Rajasthan–332713, India./ Department of Physics, University of Rajasthan, Jaipur 302 004, India.Author -
Madhu Yadav
Department of Physics, University of Rajasthan, Jaipur 302 004, India./Centre for Non-conventional Energy Resources, University of Rajasthan, Jaipur 302 004, India.Author -
Nakul Gupta
Department of Physics, Central University of Rajasthan, Ajmer-305817, Rajasthan, India.Author -
Sejal Goyal
Department of Chemistry, Central University of Rajasthan, Ajmer-305817, Rajasthan, India.Author -
Pankaj Kumar Jain
Department of Environmental Science, Indira Gandhi Centre for Human Ecology, Environmental and Population Studies, University of Rajasthan, Jaipur 302 004, India.Author -
Amanpal Singh
Department of Physics, University of Rajasthan, Jaipur 302 004, India.Author -
Chhagan Lal
Department of Physics, University of Rajasthan, Jaipur 302 004, India./Centre for Non-conventional Energy Resources, University of Rajasthan, Jaipur 302004, Rajasthan, India.Author
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- Keywords:
- Reactive red, methylene blue, biosynthesis, copper oxide nanoparticles,, dye degradation, nanotechnology
- Abstract
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Graphitic carbon nitride (g-C3N4)-based nanomaterials gained a lot of interest due to their special qualities, which include their chemical stability and ease of modification. Still, g-C3N4's ability to work as a photocatalyst is limited. The combination of adsorption and photocatalysis has become popular in recent years because adsorption is necessary for photocatalytic surface reactions. g-C3N4 was made by heating melamine and then cooling it down. Its structural, optical, and thermal properties were then studied. The XRD diffraction spectra show that g-C3N4 has a layered structure. The calculated d-spacing is 0.324 nm and the estimated crystallite size is 90.9 nm. The UV–Vis studies showed that the material strongly absorbs visible light and has a band gap of about 2.61 eV. TG and DSC results showed that the material was very stable at high temperatures and found a thermal transition point about 350 °C. These results indicate that g-C3N4 is a promising material for photocatalytic and environmental applications.
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- 2025-11-30
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