Safe, compact, lightweight, and efficient: H2MOF’s solid-state hydrogen storage techology can unlock the full potential of hydrogen for UAVs.
As the drone industry pushes toward longer missions with heavier payloads, the limitations of battery-powered UAVs are becoming increasingly difficult to ignore.
Advancing and scaling breakthrough materials like metal-organic frameworks can transform entire fields, including hydrogen storage. Read the interview on Financial Times.
H2MOF’s VP of Business Development, Magnus Bach, was interviewed by Nikkei xTECH about our solid-state hydrogen storage technology.
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).
Dr. Neel Sirosh, CTO and Magnus Bach, VP of Business Development explain how H2MOF’s solid-state technology can address the challenge of hydrogen storage and transport.
The arrival of solid-state hydrogen storage, built on nano-engineered materials, allows drones to break free from the compromises that have long defined battery-powered flight. Read the article by Dr. Neel Sirosh, CTO, on UASweekly.com.
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.
Download the white paper to learn how hydrogen and H2MOF’s solid-state storage technology can bring UAV performance to the next level.
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.
H2MOF’s co-founder, Prof. Omar Yaghi, featured in Nature’s publication on commercial applications of MOFs, “the world’s most porous sponges”.
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.
H2MOF featured in Kallanish: read how cost-efficient storage based on reticular materials can accelerate the hydrogen adoption.
Hydrogen storage technologies are key to establish hydrogen as an attractive clean fuel for transportations. Download the white paper on hydrogen mobility!
Battery endurance is a bottleneck for drone technology. Could hydrogen offer a solution? Read the article by Dr. Neel Sirosh, CTO, on DRONELIFE.
Dr. Neel Sirosh, CTO, explains the revolutionary potential of reticular materials for hydrogen storage in this article published on the Hydrogen Tech World magazine.
Download this white paper to learn more about the role of hydrogen transportation technologies and reticular materials in building resilient supply chains.
Sir Fraser Stoddart obituary published in The Guardian on January 26, 2025.
Learn how H2MOF enables hydrogen storage at low pressure and room temperature in this article on Interesting Engineering.
It is with profound sadness that we announce the passing of Prof. Sir Fraser Stoddart, Nobel Laureate, Professor of Chemistry, and co-founder of H2MOF.
Magnus Bach, VP of Business Development, explains how H2MOF is solving the biggest challenge of the hydrogen economy.
Dr. Neel Sirosh, CTO explains how H2MOF is leveraging reticular materials to achieve solid-state hydrogen storage at low pressure and room temperature.
Dr. Neel Sirosh, CTO, and Magnus Bach, VP of Business Development discuss H2MOF’s solid-state hydrogen storage solution in this interview on Engineering News.
In this interview, our CEO Samer Taha talks about H2MOF’s breakthrough technology for hydrogen storage at room temperature and low pressure.
Our VP of Business Development, Magnus Bach, explains how we enable the hydrogen economy by overcoming its biggest challenge: safe and efficient storage and transportation.
Our VP of Business Development, Magnus Bach, explains how H2MOF’s nano-engineered reticular materials can overcome the biggest challenge of the hydrogen economy.
Our CEO, Dr. Samer Taha, explains how H2MOF is leveraging reticular chemistry to tackle the hydrogen storage challenge.
In this interview, Magnus Bach and Dr Neel Sirosh discuss about the ‘magic behind the science’ at H2MOF.
The convergence of nanotechnology and climate technology presents a transformational opportunity to enable the transition of the global energy system. Read the article by our CEO, Dr. Samer Taha.
In this CNBC article, our founders talk about the biggest bottleneck of the hydrogen economy and how H2MOF’s solutions for hydrogen storage will help overcome this challenge.
The Science for the Future Ernest Solvay Prize by Syensqo has been awarded to Omar Yaghi in recognition of his pioneering work in reticular chemistry.
We are excited to have our CEO, Dr. Samer Taha, featured in a recent Forbes Article focused on how H2MOF can help accelerate the hydrogen economy with a cheaper, more efficient way to store and move the fuel.
Hydrogen is the lightest, most abundant element in the universe. And when it burns, all it leaves behind is clean water. So, it’s puzzling why more people haven’t heard of hydrogen – and of the role it is earmarked to play in the shift towards a carbon-free energy mix.
Renewables are a growing component of the global energy mix. Electrification continues to
make inroads in the personal and light vehicle sectors. But key sectors, such as heavy road transport, industry, aviation, and shipping, remain stubbornly resistant to decarbonization. This is where Power-to-X (P2X) plays a vital role.