Ammonia borane (AB) has emerged as a leading candidate for solid-state hydrogen storage due to its exceptionally high hydrogen content and favourable gravimetric capacity. Its unique bonding ...

Washington, D.C.—Scientists at the Carnegie Institution have found for the first time that high pressure can be used to make a unique hydrogen-storage material. The discovery paves the way for an ...

Metal hydride hydrogen storage systems offer a promising solution for efficient and safe hydrogen storage, utilising intermetallic compounds that reversibly absorb and desorb hydrogen. Their high ...

Scientists compared hydrogen storage techniques and found that physical methods are closer to commercial feasibility, while materials-based techniques have strong potential. They concluded that ...

Currently, pure hydrogen is either stored as a gas, or as a cryogenic liquid. The gaseous form must be stored at around 700 times the normal atmospheric pressure at sea level, or more than 10,100 psi, ...

Hydrogen fuel cells are widely recognized as a clean and high-efficiency alternative to fossil energy, but commercial ...

Researchers have designed a liquid hydrogen storage and delivery system that could help make zero-emission aviation a reality. Their work outlines a scalable, integrated system that addresses several ...

A combination of battery storage and hydrogen fuel cells could help the United States, as well as many other countries, to transition to a 100% clean electricity grid in a low-cost, reliable fashion, ...

Since the discovery of low-temperature superconductors, there has been an ongoing effort to realize superconductivity at room temperatures with low cooling costs. Crystalline materials containing ...

Hydrogen’s promise is limited by how it is stored. This article examines how high-entropy alloys could reshape solid-state hydrogen storage, and the challenges that remain.

Green hydrogen has long been billed as the clean fuel that could decarbonize heavy industry, shipping, and long‑distance ...