H2MOF

“Very difficult problems can be solved when people meet eye to eye on the power of discovery.” - Prof. Omar Yaghi. Our two founders, Nobel laureate Prof. Sir Fraser Stoddart and the founder of reticular chemistry, Prof. Omar Yaghi, have joined forces to tackle the biggest challenge of the century: #climatechange. Leveraging decades of research, our team at #H2MOF is working on a solid-state #hydrogen storage solution that operates at ambient temperature and under low pressure. This is no easy task, but the outcome will be truly transformative, enabling hydrogen to become a key pillar of our #renewable energy system of the future. Find out more about our purpose here: https://lnkd.in/eRfEgB-8

Today marks the start of the Commercial UAV Expo in Las Vegas, and H2MOF is proud to be attending. We look forward to engaging with leaders in the UAV industry and sharing how our MOF-based hydrogen storage solutions enable longer flight time, heavier payloads, and faster refueling. If you’re attending, we welcome you to stop by our booth #1111 in the startup pavillion and connect. Find out more about our presence at the expo here: https://hubs.li/Q03GrN9-0

We are pleased to share that Magnus Bach (EMBA), H2MOF’s VP of Business Development, will be giving an exhibitor presentation at the Commercial UAV Expo in Las Vegas. He will discuss how hydrogen energy systems and solid-state storage technologies can significantly improve the range and payload capacity of UAVs, vastly enhancing their operational flexibility compared to traditional batteries. Find out more here: https://hubs.li/Q03FPh1J0

We’re hiring: Process Engineer – Irvine, CA (US) H2MOF is enabling the energy transition by tackling one of the toughest challenges in the hydrogen economy: safe and efficient hydrogen storage. We’re seeking a Process Engineer to help develop and optimize processes that integrate nano-engineered reticular materials into hydrogen storage systems. In this role, you’ll design workflows and tools, run experiments in our hydrogen testing lab, and collaborate with a multidisciplinary team to drive innovation. Qualifications: - Master’s in Mechanical or Chemical Engineering - 3+ years in materials & process engineering - Strong background in nanomaterials process research, optimization, and scale-up You can find further information about the role here: https://hubs.li/Q03Fs5z80 To apply, send your cover letter and resume to HR@h2mof.com. Join us in shaping the future of clean energy.

The “colors of hydrogen” provide a useful framework to understand how hydrogen is produced and how clean each method truly is. From fossil-based grey and brown hydrogen to low-carbon blue and renewable green hydrogen, these distinctions are critical to the future of clean energy. Understanding the source of hydrogen is essential for making smart policy, investment, and technology decisions. As the world moves toward net-zero targets, green and low-carbon hydrogen will play a growing role in global decarbonization strategies. At H2MOF, we are focused on solving one of hydrogen’s biggest challenges which is storage. Our solid-state technology, based on nano-engineered reticular materials, allows hydrogen to be stored safely at low pressure and near-ambient temperature. This enables more flexible and cost-effective hydrogen supply chains. Read our latest blog to learn more: https://hubs.li/Q03D-VcR0

H2MOF is pleased to announce our participation in the upcoming Commercial UAV Expo, taking place in Las Vegas from September 2 to 4. This event brings together leading voices from across the UAV industry to explore the latest advancements in UAV technology and applications. We are proud to contribute to this conversation with our hydrogen storage technology based on nano-engineered reticular materials - a compact and lightweight system that will help unlock the full potential of hydrogen-powered UAVs. Find out more about our presence at the event here: https://hubs.li/Q03DlVT30

Hydrogen is one of the cleanest and most energy-dense fuels available, ideal for decarbonizing transport across land, sea, and air. In our latest blog, we explore the different options for onboard storage and explain why we need transformative hydrogen storage technologies to enable hydrogen-powered mobility at large: https://lnkd.in/d8T4CxNF

What’s holding back hydrogen mobility? Find out in our latest blog what’s driving up costs for hydrogen and how this can be tackled with nano-engineered reticular materials: https://lnkd.in/dPf2Vqbe

Hydrogen holds vast potential as a fuel, but we need to solve its biggest challenge: safe and efficient storage. In our latest blog post, we explore what’s driving hydrogen mobility forward, what the challenges are, and how H2MOF is enabling the next leap with MOF-based storage technology: https://lnkd.in/d_eGv2_2 At H2MOF, we’re developing solid-state hydrogen storage systems that are safe, compact, and efficient. This will pave the way for practical, scalable hydrogen adoption across road, rail, sea, and air.

As the #hydrogen economy grows, the limitations of physical-based storage technologies such as compression and liquefaction are becoming clear—from safety risks to high costs. Material-based storage solutions like LOHCs, ammonia, metal hydrides, and reticular materials (MOFs) offer safer, more scalable alternatives. In our latest blog post, we compare these technologies and highlight why reticular materials are emerging as a breakthrough in hydrogen transport: https://lnkd.in/dKcHEeDQ