Scientific discovery is often tedious, expensive, incremental trial and error, but the advent of artificial intelligence is ...

Finding high-performing catalysts, which are used to accelerate processes from chemical manufacturing to energy production, ...

The field of catalysis, particularly in oxidation reactions, occupies a central role in modern chemistry and industrial processes. These reactions underpin energy conversion, environmental remediation ...

New platinum free fuel cell design cuts costs and could accelerate adoption of hydrogen based clean energy systems.

Researchers have shown that placing individual metal atoms on carefully chosen supports can dramatically sharpen the ...

A high acid environment is great for a snappy hydrogen oxidation reaction—the reaction at the heart of a clean-energy fuel ...

A team of chemists has demonstrated a way to form sulfur-sulfur bonds at room temperature without any external catalyst, ...

Researchers have created a cutting-edge catalyst that turns CO2 into methanol more efficiently than ever before. Instead of ...

For the first time, chemists have developed a titanium catalyst that makes light usable for selective chemical reactions. It provides a cost-effective and non-toxic alternative to the ruthenium and ...

Software simulates 370,000 steps in under 100 hours, potentially cutting demand for time on supercomputers by orders of ...

The discipline of Catalysis and Reaction Engineering (CRE) seeks to control and understand the networks of reactions that occur in ‘reactors’ ranging from cellular compartments up to world-scale ...