Merck KGaA, Darmstadt, Germany, a leading science and technology company, has today announced a three-year collaboration with the research group of John Hartwig at UC Berkeley and Lawrence Berkeley National Laboratory. The collaboration between the public research institutes associated with the University of California and the Digital Chemistry Team of Merck KGaA, Darmstadt, Germany, will focus on understanding the underlying mechanisms for catalysis innovation using machine learning and high-throughput experimentation.
“The application of artificial intelligence to catalysis is a deeply interdisciplinary topic ripe for collaboration. I am excited for the opportunity to assemble the intellect and expertise of researchers at Berkeley and Merck KGaA, Darmstadt, Germany, to create new approaches to predict and imagine new catalysts and catalytic reactions for the synthesis of high-value compounds,” said John Hartwig, Henry Rapoport Professor of Organic Chemistry at UC Berkeley and Senior Faculty Scientist at Lawrence Berkeley National Laboratory.
“Our commitment to exploring disruptive technologies that have the potential to impact our pioneering businesses is unwavering, and this collaboration on digital design of catalysts represents a significant step forward. I am excited to see what groundbreaking advancements will emerge from this partnership,” said Philipp Harbach, Global Head of Group Digital Innovation of Merck KGaA, Darmstadt, Germany.
The collaboration is funded through the company’s 2022 Research Grant “Chemistry in the cloud – Rapid synthesis through automation”. This annual research grant program was developed in 2018 to explore potentially disruptive technologies that impact the businesses of Merck KGaA, Darmstadt, Germany.
The research of the three partners aims to enhance the process of creating novel catalysis materials by implementing new machine learning representations of catalysts and advanced algorithms to determine the optimal catalysts for a process when given limited reaction data. The machine learning algorithms will be combined with high-throughput experimentation to create optimized predictions using real-world results. Outcomes will include new algorithms and software as well as novel catalysis materials.
Prof. Hartwig’s research is focused on the discovery and understanding of new reactions catalyzed by transition metal complexes. He is well known for his contributions to widely practiced cross-coupling chemistry that form arylamines, aryl ethers, aryl sulfides, and α-aryl carbonyl compounds as well as for the discovery of practical C-H bond functionalization reactions. He has received numerous awards and was elected to the National Academy of Sciences in 2012. Hartwig was awarded the Emanuel Merck Lectureship in 2022.
The Digital Chemistry Team at Merck KGaA, Darmstadt, Germany, concentrates on bringing digital tools and applications to chemistry-related business bottlenecks within the three business sectors of the company. The group aims to enhance productivity and increase innovation within the current product portfolio of Merck KGaA, Darmstadt, Germany, as well as open new opportunities in expanding digital businesses within the organization.