Designing molecules is one of chemistry's most complex challenges. From life-saving drugs to advanced materials, each ...

A research group led by The University of Osaka has achieved a world-first in catalytic asymmetric synthesis, developing an innovative method for efficiently producing NOBIN, a valuable molecule used ...

From energy production to genetic changes: molecules are constantly in motion within biological cells. However, experimentally investigating such processes, which occur on very small length and time ...

As drug discovery places greater emphasis on practical execution and scalable delivery, flow chemistry is playing an increasingly important role across modern synthesis workflows. At the latest Viva ...

Recent breakthroughs in AI, quantum computing, and advanced microscopy are redefining how scientists simulate and visualize molecular systems. New methods capture long-range atomic interactions, model ...

Cycloaddition reactions represent a cornerstone of synthetic organic chemistry, facilitating the formation of cyclic structures through concerted pericyclic processes. Traditionally explained via ...

Electron microscopy has emerged as an indispensable tool for the investigation of carbon nanostructures and their molecular reactions. Recent advancements in high-resolution transmission electron ...

Researchers have created a nanoscale system that might be used to deliver drugs or release molecules that repair damaged materials (Nature 2024, DOI:10.1038/s41586 ...

How can a drug be released or activated exactly where and when it is needed in the body? For many treatments, particularly in ...

An illustration of the density of a water molecule network (blue surface map and red spheres) near the catalytic site (green sticks), projected on the surface of a plant exo-hydrolase, coloured by ...