The origin of life from Earth’s primordial chemistry has long fascinated and perplexed us. Generations of scientists have endeavored to understand how complex biochemistry developed from organic ...

A research team has made significant discoveries regarding the complex reaction mechanisms of carbon dioxide (CO2) in supercritical water. These findings are crucial for understanding the molecular ...

Researchers use AI to visualize reaction pathways of colloidal quantum dots as subway maps, clarifying synthesis and speeding sensor design. This innovative achievement allows AI to analyze complex ...

Lithium-sulfur batteries have exceptional theoretical capacity and performance in combination with an element in abundant supply. But the intricate reaction mechanism, particularly during discharge, ...

The GraSSCoL framework consists of three stages: pre-processing, generation, and re-ranking. Decoding cosmic evolution depends on accurately predicting the complex chemical reactions in the harsh ...

Hybrid water electrolysers are recent devices, which produce hydrogen or other reduction products at the cathode, while valuable organic oxidation products are formed at the anode. This innovative ...

Schematic illustration of a hybrid electrolyser, which combines hydrogen production at the cathode with the production of valuable organic compounds at the anode by organic oxidation reactions. Hybrid ...

Many attempts have been made to harness the power of new artificial intelligence and large language models (LLMs) to try to predict the outcomes of new chemical reactions. These have had limited ...