Rakotonirina, V.D., Bragato, M., Heinen, S., & von Lilienfeld, O.A. (2024). Combining Hammett σ constants for ∆-machine learning and catalyst discovery. [Journal Name Not Provided].
This study investigates the effectiveness of combining Hammett σ constants with machine learning (∆-ML) to predict relative substrate binding energies in homogeneous organometallic catalysis, specifically for the Suzuki-Miyaura (SM) cross-coupling reaction. The goal is to develop a computationally efficient method for catalyst discovery and ligand tuning.
The researchers employed a combination rule-enhanced Hammett-inspired product model (cHIP) to partition the contributions of metals and ligands in organometallic catalysts. They utilized two datasets: DB1, containing relative binding energies for the oxidative addition step in the SM reaction, and DB2, containing relative binding free energies for all three intermediate steps. The cHIP model was used as a baseline for ∆-ML with Kernel Ridge Regression (KRR) to improve prediction accuracy.
The study highlights the efficacy of combining Hammett σ constants with machine learning for catalyst discovery. The proposed cHIP model, particularly when used as a baseline for ∆-ML, offers a computationally efficient and accurate method for predicting relative binding energies and identifying promising catalyst candidates.
This research contributes to the field of computational catalysis by providing a novel approach for catalyst design and optimization. The ability to predict catalyst performance based on readily available parameters like Hammett σ constants has the potential to accelerate the discovery of new and improved catalysts for various chemical reactions.
Further research is needed to investigate the effect of steric hindrance and specific ligand environments on the accuracy of the cHIP model. Additionally, extending this approach to other catalytic reactions and complexes with more than two ligands would broaden its applicability.
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by V. Diana Rak... às arxiv.org 10-08-2024
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