The 11-qubit silicon processor marks a significant advancement in quantum computing, combining high fidelity with scalable ...

Artificial intelligence is redefining how fire tests are used in polyurethane foam R&D, delivering faster insights and ...

Innovative structural designs in all-solid-state batteries by KAIST researchers boost performance and safety while reducing ...

Every year, the Valencian agricultural sector generates around 800,000 tons of plant waste, such as rice straw and citrus ...

Floquet control uses time-periodic drives to engineer quantum systems, creating dynamic changes in material properties ...

Most AI initiatives fail to deliver results, but chemical companies are finding success by learning what really works.

AI has become a critical tool in materials and chemical research, driving faster discovery and improved process control.

Blowing oxygen into molten steel in vacuum conditions saves time and money when compared to conventional steelmaking methods.

Li-ion batteries are critical in energy storage, but their increasing energy density has led to worries about their safety.

As regulatory pressure increases, chemical companies are turning to AI to identify and replace PFAS and other restricted ...

Flow Chemistry continues to gain momentum as a powerful alternative to batch processing, offering improved safety, easier ...

Scientists at the University of St Andrews have discovered a molecular “reshuffle”, a breakthrough that addresses a major ...