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Aug 18
2
Fuel Cells Works, Air Liquide and Siemens Energy Form a Joint Venture for the European Production of Large-Scale Renewable Hydrogen Electrolyzers

Thursday Throwback: Air Liquide and Siemens Energy Form a Joint Venture for the European Production of Large-Scale Renewable Hydrogen Electrolyzers

By | Europe, News, Throwback Thursday | No Comments August 18, 2022 | 3 min read August 18, 2022 | 3 min read

Air Liquide and Siemens Energy announce the creation of a joint venture dedicated to the series production of industrial scale renewable hydrogen electrolyzers in Europe. With two of the global leading companies in their field combining their expertise, this Franco-German partnership will enable the emergence of a sustainable hydrogen economy in Europe and foster a European ecosystem for electrolysis and hydrogen technology. Production is expected to begin in the second half of 2023 and ramp-up to an annual production capacity of three gigawatts by 2025.

Aug 18
2
Fuel Cells Works, Hyphen Hydrogen Energy Progresses Its Planned US$10 Bn Namibian Green Hydrogen Project

Hyphen Hydrogen Energy Progresses Its Planned US$10 Bn Namibian Green Hydrogen Project

By | Africa, News | No Comments August 18, 2022 | 4 min read August 18, 2022 | 4 min read
  • Hyphen Hydrogen Energy’s discussions with Namibian Government progressing positively.
  • Appointment of key strategic advisors, Boston Consulting Group and Lazard.
  • Hyphen’s sister company selected to develop hydrogen powered locomotive prototypes.
  • New office to be opened in Windhoek, Namibia; Hyphen adds five new Namibian team members.
Aug 18
1
Fuel Cells Works, Fuel Cells: Toyota Research Institute and Northwestern Join Forces to Accelerate the Discovery of Materials That Will Drive the Clean Energy Transition

Fuel Cells: Toyota Research Institute and Northwestern Join Forces to Accelerate the Discovery of Materials That Will Drive the Clean Energy Transition

By | News, USA | No Comments August 18, 2022 | 3 min read August 18, 2022 | 3 min read
  • Teams Develop New AI-driven Method to Discover, Design and Develop Next Generation Materials to Help Reduce Carbon Emissions.

LOS ALTOS, Calif. and CHICAGO – Toyota Research Institute (TRI) and Northwestern University today announce their collaboration to help accelerate new materials discovery, design and development with the world’s first nanomaterial “data factory.” This AI-driven methodology goes far beyond the traditional trial and error by exploring vast parameter sets, collecting data and then empowering AI to search the materials genome to find the best materials for a given application. While the first application of the data factory will be used to discover new catalysts to make fuel cell vehicles more efficient, TRI and Northwestern believe this method of materials discovery will have wide-ranging applications in the future such as clean hydrogen production, CO2 removal from air and high-efficiency solar cells.

Aug 18
1
Fuel Cells Works, ECombustible's Game-Changing Hydrogen Fuel Technology Impact to Be Featured at the 2022 Annual Conference of Metallurgists

ECombustible’s Game-Changing Hydrogen Fuel Technology Impact to Be Featured at the 2022 Annual Conference of Metallurgists

By | Canada, News, USA | No Comments August 18, 2022 | 4 min read August 18, 2022 | 4 min read

MIAMI — As part of the effort to decarbonize the world economy, the Anglo American Barro Alto industrial complex in Brazil will implement eCombustible Energy’s 100% carbon-free fuel and cost-competitive hydrogen energy technology this year with details of the project to be presented at the 2022 Annual Conference of Metallurgists in Montréal, QC August 21-24, 2022.

Aug 18
1
Fuel Cells Works, New Photocatalyst Boosts Water Splitting Efficiency for Clean Hydrogen Production

New Photocatalyst Boosts Water Splitting Efficiency for Clean Hydrogen Production

By | News, Research News | No Comments August 18, 2022 | 3 min read August 18, 2022 | 3 min read

In a first, a dye-sensitized photocatalyst that facilitates the most efficient solar water splitting activity recorded to date (for similar catalysts) has been optimized by researchers from Tokyo Tech. Their surface-modified, dye-sensitized nanosheet catalyst shows immense potential, as it can suppress undesirable back electron transfer and improve water splitting activity up to a hundred times!

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