Green and mild retro-aldol synthesis of natural benzaldehyde from cinnamaldehyde over Li-doped MgO catalysts.
Ngoc Quang Phan, Duc Chinh Pham, Thi Uyen Nguyen, Dang Van Do, Thu Thi Minh Nguyen, Hong Duc Ta
Abstract
Open AccessA green and efficient method for the selective synthesis of natural benzaldehyde (BA) from cinnamaldehyde (CA) was developed using Li-doped MgO (Li/MgO) catalysts under mild conditions. Catalysts were systematically characterized via SEM, XRD, CO2-TPD, and NH3-TPD to investigate their structural and surface properties. Reaction parameters, including solvent composition, water content, catalyst dosage, reaction temperature, and stirring speed, were optimized. Among the tested materials, 0.25 Li/MgO delivered the highest benzaldehyde yield of 40.65% within 3 hours under optimal conditions: 0.01 mole CA, CA/H2O molar ratio of 1 : 83, CA/EtOH ratio of 1 : 25, catalyst loading of 0.006 g mL-1, 343 K, and 600 rpm. Catalyst reusability tests demonstrated stable performance over four cycles without significant loss of activity. Kinetic analysis followed a pseudo-first-order model, yielding a rate constant of 0.0032 min-1 and an activation energy of 22.73 kJ mol-1. A retro-aldol reaction mechanism involving active surface sites on the catalyst was proposed. Importantly, scale-up experiments using 10-fold reactant quantities maintained comparable yields, underscoring the catalyst's scalability and industrial relevance. This work presents a sustainable and selective approach for natural benzaldehyde production, with both the catalytic system and mild operational conditions offering significant advantages in green chemistry.