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Metal Oxide Nanocomposites for Various Applications - Vignesh, R.
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Metal oxide nanocomposites have emerged as a fascinating area of research in recent years due to their various applications in different fields. The development of metal oxide nanocomposites has become a topic of interest in the research community due to their enhanced properties and improved performance in various applications such as sensors, catalysis, energy storage, water treatment, air purification, and many others. In this context, R VIGNESH has carried out extensive research on the synthesis and structural characterization of metal oxide nanocomposites for various applications. The…mehr

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Metal oxide nanocomposites have emerged as a fascinating area of research in recent years due to their various applications in different fields. The development of metal oxide nanocomposites has become a topic of interest in the research community due to their enhanced properties and improved performance in various applications such as sensors, catalysis, energy storage, water treatment, air purification, and many others. In this context, R VIGNESH has carried out extensive research on the synthesis and structural characterization of metal oxide nanocomposites for various applications. The metal oxides studied in this research include MNO2, ZrO2, SnO2, and NiO, which have been combined with activated carbon derived from coconut shell, groundnut shell, rice husk, and sugarcane bagasse. The resulting nanocomposites have been investigated for their potential use in humidity sensing, antimicrobial activity, photocatalytic degradation of methylene blue dye under visible light irradiation, and other applications. The morphology, surface area, and porosity of these metal oxide nanocomposites have been characterized using various techniques such as XRD, SEM, TEM, BET, FTIR, Raman, and UV-vis spectroscopy. These characterization techniques have revealed the formation of well-defined metal oxide nanoparticles embedded in the carbon matrix, which contributes to the improved properties of the nanocomposites. The electrochemical properties, mechanical properties, and thermal stability of these metal oxide-carbon composites have also been studied. The results have shown that these nanocomposites exhibit excellent performance in terms of energy storage, adsorption, and catalysis. The use of renewable resources and waste materials in the synthesis of metal oxide nanocomposites has added to the environmental sustainability of this research. The utilization of biodegradable materials has also contributed to the reduction of waste and increased the use of renewable resources. In conclusion, the research carried out by R VIGNESH on metal oxide nanocomposites has contributed to the development of new materials with enhanced properties and improved performance for various applications. The characterization techniques used in this research have provided a better understanding of the structure and properties of these nanocomposites. The use of renewable resources and waste materials has added to the environmental sustainability of this research, making it a promising avenue for future studies in the field of nanomaterials.