Ir al contenido principal

18° SEMINARIO QUÍMICA ORGÁNICA IQUIR 2021

 SEMINARIO QUÍMICA ORGÁNICA 20-09-21

EXPOSITOR: Lic. Natalia Labadie

TÍTULO: "Bayesian reaction optimization as a tool for chemical synthesis".

FUENTE: Shields, B.J., Stevens, J., Li, J. et al. Bayesian reaction optimization as a tool for chemical synthesis. Nature 590, 89–96 (2021). https://doi.org/10.1038/s41586-021-03213-y.

DÍA, HORA y LUGAR: Lunes 20 de septiembre de 2021, 18:00 h, Plataforma MEET GOOGLE.

Linkmeet.google.com/bfh-poxv-bso

RESUMENReaction optimization is fundamental to synthetic chemistry, from optimizing the yield of industrial processes to selecting conditions for the preparation of medicinal candidates1. Likewise, parameter optimization is omnipresent in artificial intelligence, from tuning virtual personal assistants to training social media and product recommendation systems2. Owing to the high cost associated with carrying out experiments, scientists in both areas set numerous (hyper)parameter values by evaluating only a small subset of the possible configurations. Bayesian optimization, an iterative response surface-based global optimization algorithm, has demonstrated exceptional performance in the tuning of machine learning models3. Bayesian optimization has also been recently applied in chemistry4,5,6,7,8,9; however, its application and assessment for reaction optimization in synthetic chemistry has not been investigated. Here we report the development of a framework for Bayesian reaction optimization and an open-source software tool that allows chemists to easily integrate state-of-the-art optimization algorithms into their everyday laboratory practices. We collect a large benchmark dataset for a palladium-catalysed direct arylation reaction, perform a systematic study of Bayesian optimization compared to human decision-making in reaction optimization, and apply Bayesian optimization to two real-world optimization efforts (Mitsunobu and deoxyfluorination reactions). Benchmarking is accomplished via an online game that links the decisions made by expert chemists and engineers to real experiments run in the laboratory. Our findings demonstrate that Bayesian optimization outperforms human decisionmaking in both average optimization efficiency (number of experiments) and consistency (variance of outcome against initially available data). Overall, our studies suggest that adopting Bayesian optimization methods into everyday laboratory practices could facilitate more efficient synthesis of functional chemicals by enabling better-informed, data-driven decisions about which experiments to run.

Comentarios

Publicar un comentario

Entradas populares de este blog

6º SEMINARIO QUÍMICA ORGÁNICA IQUIR 2025

SEMINARIO QUÍMICA ORGÁNICA 12-5-25 EXPOSITOR :  Dra. Agustina La Venia TÍTULO :   " Recent Progress and Prospects of Small Molecules for NLRP3 Inflammasome Inhibition " FUENTE :  Ying Chen, et al. Cell. Mol. Biol. Lett.  2023 ,  28 , 51 . Na Li, et al.  J. Med. Chem. 2023 , 66 ,   14447-14473. DÍA, HORA y LUGAR : Lunes 12 de mayo de 2025, 14:00 h, Aula 18 y virtual. Modalidad virtual, Link :  meet.google.com/hjn-ygro-twf  ( Plataforma MEET GOOGLE) Resumen : NLRP3 inflammasome is a multiprotein complex involved in host immune response which exerts various biological effects by mediating the maturation and secretion of IL-1β and IL-18and pyroptosis. However, its aberrant activation could cause amplification of inflammatory effects, thereby triggering a range of ailments, including Alzheimer’s disease, Parkinson’s disease, rheumatoid arthritis, gout, type 2 diabetes mellitus, and cancer. For the past few years, as an attractive anti-inflammato...
Publicar un comentario
Leer más

22º SEMINARIO QUÍMICA ORGÁNICA IQUIR 2025

SEMINARIO QUÍMICA ORGÁNICA 08-10-25 EXPOSITOR :   Lic. Milagros Amichetti TÍTULO :   " Estudios en la Frontera de la Química Computacional y la Elucidación Estructural: Evaluación de Métodos y Desarrollo de Estrategias para Sistemas Complejos". FUENTE :  Trabajo de investigación de la estudiante de doctorado. DÍA, HORA y LUGAR : Miércoles 8 de octubre de 2025, 15:30 h, virtual. Modalidad virtual, Link :  meet.google.com/hjn-ygro-twf  ( Plataforma MEET GOOGLE) Resumen : El uso de la química computacional para la elucidación estructural se ha incrementado notablemente, siendo el método DP4+ una de las herramientas más destacadas para la asignación estereoquímica. En este trabajo de tesis se han abordado estas metodologías para evaluar y robustecer su aplicabilidad. Esto incluyó, en una primera etapa, la optimización de protocolos computacionales para sistemas flexibles y polihidroxilados, con el fin de superar sesgos conformacionales. En una segunda instancia, se ...
Publicar un comentario
Leer más

9º SEMINARIO QUÍMICA ORGÁNICA IQUIR 2025

SEMINARIO QUÍMICA ORGÁNICA 2-6-25 EXPOSITOR :  Dr. Ariel M. Sarotti TÍTULO :   " Toward Chiral Recognition by Design: Uncovering the Self-Enantioresolving Properties of Chiral Amine Derivatives " FUENTE : Anka Hagelschuer, Damián Padín, Vanda Dašková, Ben L. Feringa. J. Am. Chem. Soc. 2025, ASAP. https://doi.org/10.1021/jacs.5c01251 DÍA, HORA y LUGAR : Lunes 2 de junio de 2025, 14:00 h, Aula 18 y virtual. Modalidad virtual, Link :  meet.google.com/hjn-ygro-twf  ( Plataforma MEET GOOGLE) Resumen :  The study of chiral recognition phenomena is key for understanding biological processes, designing bioactive compounds, and for asymmetric catalysis and chiral analysis. In addition, phenomena related to the self-recognition of enantiomers are highly relevant in emergence-of-homochirality research and supramolecular chemistry. However, the design of molecules exhibiting chiral self-recognition remains challenging, and its observation is mainly based on serendipity. He...
Publicar un comentario
Leer más