Focus on the development and implementation of state-of-the-art tools such as flow chemistry, custom reactor design, and biotechnology to enable more efficient and scalable chemical synthesis. By integrating these technologies, we aim to create flexible, on-demand platforms that enhance control, sustainability, and innovation in synthetic processes.
Representative Publications:
Vortex-Driven Photocatalytic Cascade Cyclizations for Se- and S-Containing Heterocycle Synthesis. H. González, S. M. Soria-Castro*, A. Heredia*, J. E. Argüello, Colin Raston* and Gabriela Oksdath-Mansilla*. ChemCatChem 2026, 18, e01545 (1-14).
Exploring Riboflavin Derivatives in the Photodynamic Inactivation of Staphylococcus aureus. M. A. Villarreal, M. Crespo Morales, C. Selene Gomez, V. Aiassa, J. E. Argüello, J. P. Colomer* and D. A. Caminos*. ChemPhotoChem 2025, 9, e202500053.
Continuous-flow photochemistry as an automated platform integrated with closed-loop AI/ML approaches. B. Pijper, J. Alcázar,* G. Oksdath-Mansilla,* F. R. Bisogno* Chem Catalysis, 2023, 3, 100488.
Thioglucopyranose Ligands Promote Phase-Transfer of Cadmium Selenide Quantum Dots from Organic Solvents to Water. A. F. Carrizo, J. E. Argüello, L. C. Schmidt* and J. P. Colomer*. ChemistrySelect, 2020, 5, 14783-14787.
Multistep Synthesis of Organic Selenides under Visible Light Irradiation: A Continuous-Flow Approach. A. A. Heredia, S. M. Soria-Castro, W. D. Castro-Godoy, I. D. Lemir, M. López-Vidal, F. R. Bisogno, J. E. Argüello*, G. Oksdath-Mansilla*, Org. Process Res. Dev. 2020, 24, 540−545.