A new chemical reaction method is only as valuable as the chemistry it makes possible. So a paper that describes a new reaction will almost always include a table of compounds that researchers tested ...

From classrooms to research labs, AI is transforming how chemists learn, teach, and innovate. Large language models are now assisting in complex chemical reasoning, synthesis planning, and ...

A web application for use by experimental chemists created by us. Uploading a file calculated with commercially available software, and the electronic state can be analyzed. We are working on creating ...

Scientists and institutions dedicate more resources each year to the discovery of novel materials to fuel the world. As natural resources diminish and the demand for higher value and advanced ...

With artificial intelligence, scientists can design increasingly complex small molecule structures. Automation is critical for transforming these compounds from designs on a screen into actual ...

From light-fueled, self-regenerating catalysts to biocompatible couplings in live cells, chemistry is entering a smarter, greener era. Researchers are merging computational insight, sustainable design ...

Researchers develop a one pot process to transform aromatic ketones to esters, offering advancements in pharmaceutical synthesis and materials science. Aromatic ketones have traditionally been ...

Electrochemical reactions for synthesis of organic compounds would find wider applications if they were independent of power supply. Now, researchers have exploited the flow of electrolytes in an ...

Highly reactive organometallic reagents, like organolithiums (molecules with a carbon–lithium bond) are essential reagents in organic synthesis because of their applications from polymer synthesis to ...