Sustainable Microwave‐Assisted Synthesis of Medium‐ and Long‐Chain Alkyl Levulinates from Biomass‐Derived Levulinic Acid

Abstract Alkyl levulinates (ALs) represent a family of bio‐compounds derived from levulinic acid (LA), a platform chemical obtained from lignocellulosic biomass. Medium‐ and long‐chain ALs (pentyl levulinate or longer) have shown potential as biofuel and fuel additives due to their relatively low oxygen content and resemblance to biodiesel. This study reports a fast and environmentally friendly method for synthesizing ALs via microwave (MW)‐assisted LA esterification, laying emphasis on medium‐ and long‐chain ALs. By combining p ‐toluenesulfonic acid (5 wt % loading) as catalyst and MW radiation as heating source for a short time (5 minutes), excellent yields of ALs (≥89 mol %) were achieved for a wide range of primary and secondary alcohols (2–10 carbons), overcoming the expected lower reactivity of long chain alcohols. Additionally, formation of undesired side products, such as dialkyl ethers or LA aldol condensation products, was significantly minimized. The feasibility of recovering the unreacted alcohol was successfully proved by simple distillation (88 wt % recovery). The green chemistry metrics assessment proved that this approach aligns with the green chemistry principles and the United Nations Sustainable Development Goals, offering a more sustainable pathway for biofuel and fuel additive production.