A new set of simple equations can fast-track the search for metal-organic frameworks (MOFs), a Nobel-Prize-winning class of ...

A new MOF design using controlled crystallization achieves a rare combination of fast, stable hydrogen storage and low system cost, marking a significant advance in cryogenic fuel materials. (Nanowerk ...

An international research team led by a professor from Washington State University (WSU) has unveiled a groundbreaking method for storing and releasing volatile hydrogen utilizing a new type of lignin ...

This Collection supports and amplifies research related to SDG 7 - Affordable and Clean Energy. Hydrogen storage and transportation is a critical research field that underpins the realization of a ...

As a fuel, hydrogen has a lot going for it. You can burn it for heat to replace coal, you can run it through an electrolyzer to generate electricity, and you can use it to refuel a vehicle as quickly ...

Being able to store hydrogen at 194 °F could dramatically change its use as an energy source. When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works.

A novel solid electrolyte developed at the Institute of Science Tokyo enhances hydrogen storage, enabling safe, efficient ...

Hydrogen storage materials represent a critical frontier in the pursuit of a sustainable energy future. Contemporary research focuses on advanced materials capable of safely and efficiently storing ...

Salt caverns provide an ideal environment for hydrogen storage, but they also pose construction and management challenges due to impure salt deposits. The right completions tools can help ensure ...

While hydrogen's high energy per mass makes it an excellent fuel, it's awfully hard and expensive to store long-term. That could change, thanks to the work of researchers at Switzerland's ETH Zurich.