As the world moves toward sustainable energy, hydrogen will likely play an invaluable role as a clean and versatile fuel. Yet ...

As the world moves toward sustainability, the demand for efficient alternatives across industries continues to grow. Ammonia, ...

The 10 angstrom node will usher in new architectures, tooling, and materials, forcing a massive change in the way fabs build ...

In an article recently published in the journal Chemical Science, researchers comprehensively explored the transformation of amorphous ruthenium (Ru) nanoclusters into stepped truncated nano ...

The acronyms are becoming more intense, with PTE, which stands for porous transport electrodes, the latest one, amid the ...

Among these, ruthenium – a platinum group metal – has emerged as an important and commonly used catalyst. However, while a powerful and cost-effective material, highly reactive ruthenium catalysts ...

F. Allen and J. O. Wilhelm, we found ruthenium became superconducting at 2.04° K. The metal was supposedly of high purity, but retained its high resistance down to nearly 4° K.

The fission product nuclides generated during the irradiation of reactor fuel include several useful materials, among them precious metals of the platinum group (ruthenium, rhodium and palladium) ...

China also announced export controls on critical minerals like tungsten, tellurium, ruthenium, molybdenum, and ruthenium-related items, citing national security concerns. According to The Guardian ...

Impacted minerals include tungsten, tellurium, ruthenium, molybdenum, and ruthenium, which are critical to modern infrastructure and technology production.

In a breakthrough for hydrogen technology, researchers have introduced an innovative electronic fine-tuning approach that enhances the interaction between zinc and ruthenium.