Revolutionary Syngas Production: Dry Reforming of Toluene! #sciencefathe...

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International Chemistry Scientist Awards Dry reforming of toluene involves reacting toluene (C₆H₅CH₃) with carbon dioxide (CO₂) over Ni-based perovskite-type oxides as catalysts to produce syngas, a mixture of carbon monoxide (CO) and hydrogen (H₂). The process is part of a broader set of reactions aimed at converting hydrocarbons and CO₂ into valuable chemical feedstocks, particularly in the context of reducing greenhouse gas emissions. Ni-based perovskite oxides are effective catalysts due to their thermal stability, high catalytic activity, and resistance to carbon deposition, which enhances the efficiency of syngas production. This method offers a sustainable pathway for both energy and chemical industries. Subscribe for more insights on chemistry innovations! Visit Our Websites: chemistryscientists.org Nominate Open Now - Enquiry Us: contact@chemistryscientists.org #sciencefather #doctorate #chemistry #scientists #scholar #doctorate #nominationpapers #researchpublication #researchers #DryReforming, #TolueneReforming, #SyngasProduction, #NiBasedCatalysts, #PerovskiteOxides, #CO2Utilization, #HydrogenProduction, #CarbonMonoxide Don’t forget to like, share, and subscribe for more exciting content! Get Connected Here: ============= Twitter : twitter.com/chemistryS79687 Pinterest : in.pinterest.com/chemistryaward/ Blogger : blogger.com/u/2/edit-profile.g LinkedIn : linkedin.com/in/chemistry-scientist-a08b37309/ Instagram : instagram.com/ali_sha3001/ Facebook : facebook.com/profile.php?id=61559707082825

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