# Green and mild retro-aldol synthesis of natural benzaldehyde from cinnamaldehyde over Li-doped MgO catalysts

**Authors:** Ngoc Quang Phan, Duc Chinh Pham, Thi Uyen Nguyen, Dang Van Do, Thu Thi Minh Nguyen, Hong Duc Ta

PMC · DOI: 10.1039/d5ra07239e · RSC Advances · 2025-11-17

## TL;DR

Scientists developed a green and efficient way to make natural benzaldehyde from cinnamaldehyde using a lithium-doped magnesium oxide catalyst under mild conditions.

## Contribution

The study introduces a sustainable and selective Li-doped MgO catalytic system for benzaldehyde synthesis under mild conditions.

## Key findings

- The highest benzaldehyde yield of 40.65% was achieved using 0.25 Li/MgO under optimized conditions.
- The catalyst maintained stable performance over four cycles without significant activity loss.
- Scale-up experiments showed comparable yields, highlighting the catalyst's industrial potential.

## Abstract

A 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.

A 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.

## Linked entities

- **Chemicals:** cinnamaldehyde (PubChem CID 637511), benzaldehyde (PubChem CID 240), EtOH (PubChem CID 702), H2O (PubChem CID 962)

## Full-text entities

- **Chemicals:** EtOH (MESH:D000431), MgO (MESH:D008277), Li (MESH:D008094), CA (MESH:C012843), H2O (MESH:D014867), BA (MESH:C032175), CO2-TPD (-)

## Full text

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## Figures

14 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12621221/full.md

## References

34 references — full list in the complete paper: https://tomesphere.com/paper/PMC12621221/full.md

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Source: https://tomesphere.com/paper/PMC12621221