Synthesis and Characterization of Nanoparticles in Transforming Biodiesel into a Sustainable Fuel
Ramozon Khujamberdiev, Haeng Muk Cho
Abstract
Biodiesel is a promising alternative to fossil fuels, offering environmental benefits but facing challenges such as low energy density, poor oxidative stability, and high emissions. Nanotechnology has emerged as a solution, with nanoparticles improving biodiesel properties. This review examines the synthesis, characterization, and application of metal-based, carbon-based, and hybrid nanomaterials in biodiesel. Notable enhancements include an 18% increase in brake thermal efficiency with aluminum oxide and a 20% reduction in NOx emissions with cerium oxide. Hybrid nanoparticles, like graphene oxide with carbon nanotubes, have achieved a 25% decrease in hydrocarbon emissions. Despite these advancements, concerns regarding nanoparticle toxicity, environmental impact, and stability remain. Future research should focus on eco-friendly synthesis, integration with second-generation biodiesel, and multifunctional hybrid nanomaterials. This review highlights the potential of nanotechnology in enhancing biodiesel performance, paving the way for cleaner and more efficient energy solutions.