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A new method turns noise into valuable data to enhance understanding of chemical reactions and material properties with ...
High-resolution cryo-electron microscopy makes it possible to study complex enzymatic processes in detail. With this method, a research team of the University of Potsdam and Humboldt-Universität ...
This cutting-edge method, developed by an international team of scientists, uses the unique properties of the X-ray laser of European XFEL at Schenefeld near Hamburg, Germany—the largest X-ray laser ...
The accomplishments of Assistant Professor Kathryn Perrine and her mentee, research assistant Chathura de Alwis, resulted in new insights into the chemical mechanisms of oxidation-reduction — or redox ...
Osaka Metropolitan University researchers have solved a long-standing mystery in the field of sonochemistry: why do chemical ...
"Therefore, the framework highlights its effectiveness and potential for predicting complex chemical reaction pathways." HDRL-FP is High-Throughput Deep Reinforcement Learning with First Principles.
Most complex chemical reactions, whether synthetic or biological, do not involve a direct transformation of reactants into products. Instead, they often proceed through the formation of short ...
For years, scientists thought some complex molecules could only be formed on Earth. But what if we found these kinds of molecules out in space after all? In this episode of Reactions, we explore new ...
A research team led by Qi An, an associate professor of materials science and engineering at Iowa State University, has developed artificial intelligence technology that could find ways to improve ...
Engineers develop general, high-speed technology to model, explain catalytic reactions Date: August 5, 2024 Source: Iowa State University Summary: A research team developed artificial intelligence ...