UNESP ENZITAG Leads Brazil-Italy Sustainable Geranyl Benzoate Synthesis in ChemistryOpen

Breakthrough in Biocatalytic Synthesis from Brazil-Italy Collaboration

Researchers from Brazil's Universidade Estadual Paulista (UNESP) Araraquara have spearheaded an innovative study published in ChemistryOpen, unveiling a sustainable biocatalytic process for producing geranyl benzoate using immobilized lipase. This collaboration with Italian scientists marks a significant advancement in green chemistry, aligning with global demands for eco-friendly production methods in the flavor, fragrance, and pharmaceutical industries. 72 71

The publication, released on February 12, 2026, highlights the ENZITAG laboratory's expertise at UNESP's Faculdade de Ciências Farmacêuticas, where Professor Ariela Veloso de Paula leads efforts in enzyme and triacylglycerol research. This work exemplifies how Brazilian higher education institutions are fostering international partnerships to tackle real-world sustainability challenges through biocatalysis. 62

ENZITAG Lab: Pioneering Enzyme Research at UNESP Araraquara

The ENZITAG (Enzymes and Triacylglycerols) laboratory at UNESP Araraquara stands at the forefront of bioprocess engineering and biotechnology in Brazil. Coordinated by Ariela Veloso de Paula, an assistant professor in the Department of Bioprocesses and Biotechnology, the lab focuses on enzymatic processes for structured lipids, ester synthesis, and sustainable biocatalysis. UNESP, one of Brazil's premier public universities, provides a robust ecosystem for such research, with state-of-the-art facilities supporting interdisciplinary work in chemistry and biology. 61 63

This publication underscores UNESP's commitment to green chemistry principles, where enzymes serve as selective, efficient catalysts under mild conditions, reducing energy use and waste compared to traditional chemical synthesis. For aspiring researchers in Brazil, labs like ENZITAG offer invaluable training opportunities; explore research jobs and career advice to join such innovative teams.

International Team Behind the ChemistryOpen Publication

The study authors include Brazilian lead Ariela Veloso de Paula alongside Italian counterparts Domenico Meola, Chaimae Chaibi, Simona Aprile, Francesco Presini, and Federico Zappaterra, likely affiliated with institutions in Italy specializing in organic synthesis and enzymology. This Brazil-Italy partnership exemplifies the power of cross-continental collaboration in higher education, pooling expertise from UNESP's bioprocess focus and Italy's strong tradition in biocatalytic chemistry. 72

Such alliances not only enhance research quality but also open doors for Brazilian students and postdocs to international networks. Institutions like UNESP are key in Brazil's higher ed landscape, promoting global ties that boost publication impact and funding opportunities.

Geranyl Benzoate: Properties and Market Potential

Geranyl benzoate, chemically the ester formed between geraniol (a monoterpenoid alcohol with a characteristic rose-like scent) and benzoic acid, holds promise as a bioactive compound. Its applications span fragrances for perfumes and cosmetics, flavorings in food products, and potential pharmaceutical uses due to antioxidant and antimicrobial properties. Traditional synthesis relies on harsh chemical catalysts, generating toxic byproducts; this biocatalytic route offers a cleaner alternative. 72

In Brazil, with its rich biodiversity and growing biotech sector, such compounds align with national strategies for value-added natural products. UNESP's work positions Brazilian academia as a leader in scaling these for industry.

The Biocatalytic Process: Step-by-Step Explanation

Biocatalysis employs enzymes—nature's catalysts—to accelerate reactions with high specificity. Here, immobilized lipases, such as Lipozyme 435 (a commercial preparation of Candida antarctica lipase B covalently attached to acrylic resin), catalyze esterification: geraniol + benzoic acid → geranyl benzoate + water.

• Immobilization: Enzymes are fixed on solid supports, enabling reuse, stability at higher temperatures, and easy separation.
• Solvent-free system: Avoids organic solvents, minimizing environmental impact.
• Optimization: Using response surface methodology (central composite design), variables like molar ratio (geraniol:benzoic acid 1:7), temperature (80°C), and enzyme load (30 wt%) were tuned.

This step-by-step approach exemplifies precision engineering in bioprocesses, a core strength of UNESP's programs. 72

Key Results: High Yields and Process Efficiency

Under optimized conditions, 72% geraniol conversion was achieved in just 6 hours, validated by a predictive model. Switching to open-reactor setups allowed methanol evaporation (a coproduct or impurity), boosting yields to over 99% in 48 hours. Comparative tests showed Lipura Flex outperforming Lipozyme 435 against inhibitors like methyl benzoate, which slashed Lipozyme activity by 54%. 72

Reusability, though challenged (22% residual activity after 5 cycles for Lipozyme), points to areas for further enzyme engineering. Cytotoxicity assays confirmed safety, with proliferative effects at high doses, enhancing commercial viability.

Sustainability Advantages of Immobilized Lipase Biocatalysis

This process adheres to green chemistry's 12 principles: mild conditions (80°C vs. 150+°C chemically), no toxic solvents, atom economy (high selectivity), and renewable biocatalysts. In Brazil, where chemical industry emissions are scrutinized, such innovations reduce carbon footprints and support bioeconomy goals. UNESP's ENZITAG contributes to national sustainability agendas, training the next generation of green chemists. 71

Compared to conventional methods, biocatalysis cuts energy by 50-70% and waste by orders of magnitude, per industry benchmarks. For Brazilian higher ed, this positions universities like UNESP as hubs for sustainable tech transfer. Check Brazil higher ed opportunities or research positions.

Overcoming Challenges: Inhibition and Enzyme Stability

Key hurdles included methanol inhibition (mitigated by open systems) and substrate effects (methyl benzoate deactivation). Reusability declined due to product accumulation and thermal stress, common in lipases. Solutions like alternative immobilizates (Lipura Flex) and process intensification show promise. These insights from UNESP-Italy team guide future optimizations, vital for industrial scaling. 72

• Evaporation strategies for volatile inhibitors.
• Robust enzyme variants for multi-cycle use.
• Continuous flow reactors for efficiency.

Implications for Brazilian Higher Education and Industry

Brazil's higher ed sector, with institutions like UNESP producing world-class research, bridges academia-industry gaps. This publication elevates Brazil's profile in biocatalysis, attracting funding from FAPESP and CNPq. For students, it highlights career paths in biotech; professors mentor on sustainable processes. Impacts include job creation in green manufacturing and export potential for Brazilian enzymes. 61

Stakeholders—from policymakers to firms—gain actionable insights for adopting biocatalysis, fostering economic growth in São Paulo state.

Future Outlook: Scaling and Broader Applications

Next steps involve continuous bioreactors, genetic enzyme engineering, and pilot-scale demos. Geranyl benzoate could expand to drug delivery or agrochemicals. UNESP's ENZITAG eyes more Italy-Brazil projects, potentially with EU Horizon funding. In Brazilian higher ed, this spurs curricula in synthetic biology and process intensification.

Optimistic projections: 10x yield improvements via hybrid chemo-enzymatic systems. Researchers worldwide can build on this open-access work.

Why This Matters for Higher Ed Careers in Brazil

This ENZITAG achievement inspires Brazilian academics, showcasing how university labs drive innovation. With Brazil's biotech market projected to grow 15% annually, opportunities abound in research, faculty roles, and startups. Platforms like AcademicJobs connect talent to university jobs, faculty positions, and postdoc openings. Rate professors via Rate My Professor or seek career advice.

Join the green revolution—explore Brazil's vibrant higher ed scene today.