RESOURCES & NEWS

This week in Stockholm, our co-founder Professor Omar Yaghi formally received the Nobel Prize in Chemistry for his pioneering work on metal–organic frameworks (MOFs).

Prof. Omar M. Yaghi, co-founder of H2MOF, has been awarded the 2025 Nobel Prize in Chemistry for his pioneering work in the development of MOFs.

Unlocking the hydrogen economy hinges on overcoming the hydrogen storage challenge. Learn why storing hydrogen is so difficult and how reticular materials are enabling safe and efficient hydrogen storage.

Not all hydrogen is created equal: the colors of hydrogen offer a clear, visual way to understand how hydrogen is produced and its impact on the environment.

Discover the role of hydrogen in the energy transition and how this versatile energy carrier is helping decarbonize industries, stabilize power grids, and drive a sustainable future.

An overview of the most common hydrogen storage technologies and how they are used to power different hydrogen vehicles.

Despite its promise and growing global investment, hydrogen mobility still hasn’t taken off on a mass scale. What’s holding it back?

From cars and trucks to trains and even aircrafts, hydrogen is increasingly positioned as a clean, efficient, and high-potential alternative to fossil fuels.

Material-based storage technologies present exciting opportunities to improve the efficiency, safety, and practicality of hydrogen transportation.

Physical-based technologies - namely, storing hydrogen as compressed gas or cryogenic liquid - are today the most established methods for enabling hydrogen transportation.

Pipeline, shipping and road: hydrogen transportation options play a unique role in building a global hydrogen economy, and advancements in technology are paving the way for a hydrogen-powered future.

Achieving a global hydrogen economy depends on one critical factor: effective hydrogen transportation.