Organosulfur compounds present in fuels contribute to environmental pollution and hinder efficient fuel utilization due to their detrimental effects on engine performance and emissions. In response, novel nanocomposites have been developed to address these challenges by enhancing desulfurization efficiency. This study investigates the application of a tailored nanocomposite for the removal of organosulfur compounds from fuel streams. The nanocomposite, composed of [include specific components/materials], demonstrates superior adsorption capacity and selectivity towards organosulfur compounds compared to traditional desulfurization methods. Experimental results highlight the nanocomposite's ability to achieve [insert percentage] sulfur removal efficiency under [describe conditions]. Characterization techniques, including [mention techniques], elucidate the structural and morphological properties contributing to its enhanced performance. This research contributes to advancing sustainable fuel technologies by offering a promising pathway for efficient organosulfur compound removal, thereby promoting cleaner and more environmentally friendly fuel options.

Nanocomposite, Desulfurization, Organosulfur compounds

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