Additionally, we met with our partner Eltronic PTX, with whom we are building co-electrolyser demo unit for Enefit Solutions for valorising CO₂ streams. Combining H2Electro’s ceramic SOEC stacks with Eltronic’s engineering expertise in carbon capture and conversion offers promising solutions for a cleaner energy transition. 
#H2Electro #Hydrogen #CleanEnergy #WorldHydrogenWeek #EnergyTransition #Innovation #Copenhagen #EltronicPTX
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We are excited about the future of hydrogen technology and the ongoing collaboration that drives innovation in this field!
#H2Electro #Hydrogen #CleanEnergy #Partnerships #Innovation #Copenhagen #EnergyTransition #DynElectro
]]>Eltronic PTX specializes in designing and delivering integrated process systems for Power-to-X technologies. Their 20+ years of experience in automation and process engineering enables them to scale complex solutions globally and support the commercialization of new technologies.
For H2Electro, this collaboration is especially important as we focus on co-electrolysis — using CO₂ as a feedstock to produce syngas for e-fuels and green chemicals. By combining our ceramic SOEC stacks with Eltronic PTX’s process engineering expertise and Enefit Solutions’ system integration, we are building a strong foundation to demonstrate how CO₂ can be captured and turned into valuable products. In this project, we will showcase a real-life application of how H2Electro innovation transforms CO₂ into valuable fuel, proving that carbon emissions can become part of the solution.
We are excited about this partnership and look forward to showing how these joint efforts accelerate the green transition from words to industrial reality.
#Partnership #CO2Utilization #PowerToX #GreenTransition
]]>We are pleased to announce that our CEO, Henrik Hal, will be representing H2Electro at Smart Energy Week in Tokyo, scheduled for September 15-19, 2025.
About Smart Energy Week:
Recognized as the world’s foremost exhibition for renewable energy technologies, this event showcases a full spectrum of innovations, including hydrogen and fuel cells, solar power, rechargeable batteries, smart grids, wind energy, biomass, and zero-emission thermal power generation. It serves as a pivotal platform for advancing the energy sector through cutting-edge technologies and strategic insights. 
Engage with Us:
We welcome the opportunity to discuss collaboration prospects. For inquiries, please contact Henrik directly at [email protected].
Stay Informed:
Stay tuned for updates as Henrik engages with industry leaders and shares key insights from the event. We look forward to advancing H2Electro’s mission of contributing to a more sustainable and intelligent energy future.
#SmartEnergyWeek #H2Electro #RenewableEnergy #Sustainability
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) does a great job at putting today’s main electrolysis technologies side by side.
One detail jumps out immediately: Solid Oxide Electrolysis Cells (SOECs) offer unmatched efficiency:
• 25–26 kilograms of hydrogen per megawatt-hour
• 83–85% efficiency (LHV) when using steam
• Lowest projected stack cost by 2030
At H2Electro, this is exactly why we’ve dedicated ourselves to developing fully ceramic SOEC technology. By eliminating nickel metal and relying on robust ceramic fuel electrodes, we’re pushing efficiency even further—while solving some of the toughest durability challenges in the industry.
For industries looking at large-scale green hydrogen production, efficiency isn’t just a nice-to-have—it’s the game changer that determines competitiveness.
The future is clear: higher efficiency means lower costs, faster adoption, and a stronger role for hydrogen in decarbonization. And with co-electrolysis, efficiency also means turning CO₂ into valuable carbon-neutral fuels and feedstocks.
Link to Carlos’ post, read more: https://www.linkedin.com/posts/carlosbernuy_do-you-know-well-all-the-options-in-electrolysis-activity-7350783680446939137-i0Zz?utm_source=share&utm_medium=member_desktop&rcm=ACoAADoEIU0Be46G-r4cpW2cMSjnp298oWa98IY
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What if we could turn CO₂ into something valuable, instead of letting it harm the planet?
At H2Electro, we’re doing just that with co-electrolysis—a process that combines CO₂ and H₂O to produce syngas (a mixture of hydrogen and carbon monoxide). Syngas is a key precursor for producing a range of valuable chemicals and fuels, making it an important building block for a more sustainable energy and industrial ecosystem.
The magic behind our co-electrolysis process lies in our fully ceramic Solid Oxide Electrolysis Cells (SOECs). By using fully ceramic fuel electrodes instead of Ni-cermets or precious metals, we’ve made our stacks more efficient, durable, and cost-effective—paving the way for scalable hydrogen and syngas production.
While biogas stations are one example of where this technology can be applied, co-electrolysis has far-reaching potential. By capturing carbon emissions and converting them into useful products, we can contribute to a cleaner, more circular economy across multiple industries.
At H2Electro, we specialize in producing these innovative electrolyser stacks. And together with our partners, we also provide complete electrolyser systems to help bring this technology to life. We’re not just developing a product; we’re shaping the future of sustainable energy.
Turning waste into value—one molecule at a time.
#CoElectrolysis #CarbonCapture #Syngas #GreenHydrogen #CleanEnergy #SustainableTech #Innovation
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Alar and Laur Kristjan represented our team, connecting with potential suppliers and exploring exciting cooperation opportunities within the SOFC ecosystem.
The symposium offered a dynamic environment to discuss the latest advancements in electrochemical and solid-state technology. We gained valuable insights from presentations, exhibits, and networking events.
If you attended SOFC-XIX and share our passion for driving innovation in high-temperature electrochemical technologies, we’d love to connect and explore potential synergies. Drop us a message to start the conversation! 
hashtagH2Electro hashtagSOFCXIX hashtagFuelCells hashtagElectrochemicalEngineering hashtagCollaboration hashtagRenewableEnergy hashtagCleanTech
Read it here: https://www.sciencedirect.com/science/article/abs/pii/S0378775325012935
The paper explores how La0.31Sr0.58Ti0.97Ni0.03O3−δ, an A-site-deficient perovskite, can improve the durability and performance of solid oxide electrolysis cells operating at high temperatures.
Why it matters: Greater stability + higher efficiency = more scalable hydrogen tech
This work pushes us one step closer to delivering better, cheaper green hydrogen at scale.
We’re proud to be part of a growing movement that puts Estonian science and innovation on the global hydrogen map.
Congratulations, Professor Nurk!
Let’s keep building the future—one breakthrough at a time.
#GreenHydrogen #SOEC #Electrolysis #ScientificBreakthrough #EnergyInnovation #HydrogenEconomy #CleanEnergy #MaterialsScience #H2Electro #EstoniaTech #ClimateTech #ResearchToReality #DeepTech
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The event served as an opportunity to highlight Estonia’s vibrant deep-tech ecosystem and provide the Ministry with valuable insights into the region’s innovation potential and challenges. Our representative, Karl Markus Villemson, contributed to key discussions that included:
- Workforce and talent acquisition
- Regulatory environment
- Access to funding
- Export support
We were glad to share our insights and propose ways to the Ministry of Economic Affairs and Communications, who can support companies like ours.
#H2Electro #Estonia #DeepTech #Cleantech #Innovation #Tartu
]]>But it doesn’t have to.
At H2Electro, our solid oxide electrolysers run at 750–800°C, which means they can tap into that industrial waste heat and turn it into something valuable:
- Hydrogen and syngas.
- Less electricity.
- Lower emissions.
- A smarter path to decarbonization.
Sometimes the biggest energy breakthrough isn’t adding more…It’s wasting less.
#Hydrogen #Decarbonization #IndustrialInnovation #WasteHeat #H2Electro #CleanEnergy
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