Tuesday, 24 March 2026

Electrons and AI: New approaches to the search for new medicines

Four people in white lab coats are standing side by side in a bright chemistry laboratory. They are looking towards the camera; three have their arms hanging by their sides, whilst one person has their arms crossed. To the left and right, laboratory equipment, shelves, cables and several labelled bottles can be seen; daylight streams into the laboratory through large windows in the background. ©Uni Graz/Angele

Eduardo Rial-Rodriguez, Gabriele Laudadio, Florian Wagner and Oliver Kappe are using AI in the search for new drugs. Photo: University of Graz/Angele

Researchers at the University of Graz are revolutionising the development of new medicines by combining electrochemistry and artificial intelligence. Thanks to smart optimisation, the search for new active ingredients will in future be faster, more sustainable and safer.

A chemistry laboratory full of delicate powders and liquids is often the starting point in the search for new medicines. This is because discovering new active ingredient molecules requires complex reaction chains involving substances that can be highly problematic. An alternative to this is electrochemistry. It uses electrons to trigger chemical reactions and thus specifically produce new molecules that could later be used in medicines.

That sounds simple, but it is very challenging, as Gabriele Laudadio explains: “It’s like a highly complex jigsaw puzzle. We have to optimise a multitude of parameters.” What are the right electrodes, and what current strength is required? The researcher at the Institute of Organic Chemistry at the University of Graz aims to solve this puzzle. “To do this, we have to carry out hundreds of trials using the trial-and-error method until we succeed.”

AI-Optimiziation

To improve this process, he is now taking a new approach together with scientists from the Research Centre for Pharmaceutical Engineering (RCPE) and Merck KGaA: combining chemistry with artificial intelligence. Using what is known as Bayesian optimisation, the series of experiments is optimised to such an extent that only 20 to 30 attempts are required. But it is not just the time spent in the laboratory that is reduced. “We also gain certainty that we have found the optimal conditions for our experiment,” explains Laudadio.

“We have been able to prove that this approach works and can actually produce molecules in this way.” Numerous further steps and test series are still required before drugs can be produced using this method. But: “This method represents a huge step forward for the development of new active ingredients,” the researcher is convinced.

This process is not only faster, but also much more environmentally friendly and safer than the previous approach. There is no hazardous waste and energy consumption is reduced. “Very soon we will have drugs in initial clinical trials that have been developed using AI systems. We are currently witnessing the beginning of a scientific revolution,” Laudadio is convinced.

Interested? You can gain an insight into the world of molecules through a Bachelor’s degree in Chemistry, Pharmaceutical Sciences or Molecular Biology.

The Paper 

Electrochemical self-optimization for the synthesis of densely functionalized molecules; Eduardo Rial-Rodríguez, Florian L. Wagner, Thomas Fuchß, Alena Sommer, Johannes Krieger, Hans-Michael Eggenweiler, C. Oliver Kappe, Gabriele Laudadio. https://doi.org/10.1016/j.chempr.2026.102952

Related news

Premiere am Institut für Chemie: Erste LabCoat-Ceremony

Mit der ersten LabCoat-Ceremony am 27. Mai 2025 begrüßte das Institut für Chemie feierlich seine neuen Studierenden. Im festlichen Rahmen erhielten sie ihren offiziellen, mit dem Universitätslogo bestickten Labormantel – das Symbol ihres Starts als Nachwuchschemikerinnen und -chemiker.

Students at the University of Graz provided enchanting moments full of chemistry

Themed ‘Chemical Moments’, the chemical Christmas show at the University of Graz enchanted the audience with glowing experiments, fiery reactions and creative research. Around 500 high school students experienced an evening full of scientific highlights and fascinating chemistry at the Schauspielhaus Graz at the end of November.

Even greener: University of Graz researchers improve the chemical industry

Durable bioplastics, rapidly available medicines or cosmetics without toxic waste materials: chemists have long relied on enzymes, i.e. proteins from nature, as biocatalysts for environmentally friendly production. Researchers from the University of Graz and the Austrian Center of Industrial Biotechnology, together with BASF, have now discovered how they can determine the ideal conditions for production to make it even more sustainable. The results have been published in the journal Nature Communications.

University of Graz develops sustainable and recyclable bio-plastic

Researchers at the University of Graz are developing a fully recyclable, bio-based epoxy resin that could change the plastics industry in the long term. A breakthrough that combines environmental protection and economic efficiency.