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Benchmarking Strategies of Sustainable Process Chemistry Development: Human-Based, Machine Learning, and Quantum Mechanics

A. Filipa Almeida, Sofia Branco, Luísa C. R. Carvalho, André Raposo Moreira Dias, Emília Leitão, Rui M. S. Loureiro, Susana D. Lucas, Ricardo Mendonça, Rudi Oliveira, Inês L. D. Rocha, João Sardinha, S. A. Silva, Luís Sobral, Nuno M. T. Lourenço, P. C. Valente

2024Organic Process Research & Development8 citationsDOI

Abstract

This study benchmarks diverse strategies in sustainable process chemistry development, ranging from human subject matter expertise to advanced computational models, including machine learning, Bayesian optimization, and quantum mechanics simulations. Through a “virtual laboratory” case study simulating a Pd-catalyzed C–H arylation reaction, the efficiency, sustainability, and practical application of these methodologies were compared. The study highlights the nuanced interplay between traditional expertise and computational tools, offering insights into their complementary roles in accelerating development and achieving green-by-design principles in pharmaceutical synthesis. Our findings suggest that no single approach universally outperforms others; instead, a hybrid strategy leveraging both human intuition and computational power appears to be the most promising approach when combining powerful tools in the complex field of modern organic synthesis.

Topics & Concepts

BenchmarkingProcess (computing)Process developmentSustainable developmentChemistryNanotechnologyComputer scienceEngineeringManufacturing engineeringMaterials scienceBiologyBusinessMarketingOperating systemEcologyChemistry and Chemical EngineeringComputational Drug Discovery MethodsProcess Optimization and Integration
Benchmarking Strategies of Sustainable Process Chemistry Development: Human-Based, Machine Learning, and Quantum Mechanics | Litcius