PTML models of self assembled ligand free nanoparticle catalysts for cross coupling reactions
Andrea Ruiz-Escudero, Zuriñe Serna-Burgos, Sonia Arrasate, Humberto González-Díaz

TL;DR
This paper uses computational models to predict the efficiency of nanoparticle catalysts in chemical reactions, aiming to reduce costs and improve sustainability.
Contribution
The novel contribution is the development of PTML models for predicting catalyst performance in ligand-free cross-coupling reactions.
Findings
MLR model achieved 7.4% MAE and 12.2% RMSE in predicting reaction yields.
ANN models showed better performance with MAE as low as 5.8% and high precision in classification.
PTML models can guide catalyst selection and optimize reaction conditions effectively.
Abstract
Cross-coupling reactions have transformed the synthesis of complex and valuable compounds used in pharmaceuticals, materials science, and chemical synthesis. Transition metal nanoparticle (NP) catalysts represent a promising strategy within this field, but their behavior and efficiency continue under investigation. The use of computational models enables rapid design, optimization, and understanding of the behavior of these molecules, thereby reducing the costs and time. In this study, the perturbation theory and machine learning (PTML) approach was used to construct a predictive model for estimating yield after multiple reuses (up to 10) of self-assembled Au- or glass-supported transition metal NP catalysts under ligand-free conditions and diverse cross-coupling reactions. The studied reactions include Suzuki–Miyaura, Kumada, Negishi, Buchwald-Hartwig, C(sp2)- and C(sp3)-H…
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Taxonomy
TopicsPolyoxometalates: Synthesis and Applications · Mesoporous Materials and Catalysis · Catalysis and Oxidation Reactions
