Even setting up an experiment in a laboratory is analogous to composing a painting in a studio. A deliberate choreography between the instruments and glassware, an interplay of colours from reagents, ...

Catalysts are essential to modern industry, accelerating reactions used to produce everything from fertilizers and fuels to medicines and hydrogen energy. But until now, scientists could not directly ...

Photocatalysis promises an efficient conversion of abundant solar energy into usable chemical energy. Polyheptazine imides ...

In the current global industrial landscape, characterized by fluctuating raw material prices and tightening environmental ...

Some computers are easy to spot. Artificial, human-built computers like those found in smartphones and laptops are abstract ...

A clear, structured framework that transforms obstacles into measurable progress through logic, discipline, and ...

International collaboration, supported by Horizon Europe Funding, is the crucial ingredient in reducing the environmental footprint of medicines, say researchers ...

Sometimes a visually compelling metaphor is all you need to get an otherwise complicated idea across. In the summer of 2001, a Tulane physics professor named John P.

Ethylene—the chemical used to create much of the world’s plastics—has a carbon problem that Professor Ted Sargent is working to solve.

A new solar-driven method transforms plastic waste and microplastics into acetic acid, turning pollution into a valuable chemical.

The Schrödinger equation rewrote the rules of matter and forever changed the field of chemistry. Donald Truhlar, a chemist at the University of Minnesota, calls it the “greatest advance of the 20th ...