KU Leuven researchers have developed rooftop panels that capture both solar power and water from the air. Like traditional PV modules, hydrogen panels are also connected, but via gas tubes instead of electric cables. The researchers are now preparing to bring the tech to the mass market via a spinoff company.
Australia’s Energy Estate has signed a new agreement with Abergeldie, which designs vertical man-made caverns for hydrogen storage. The partnership will focus on a range of projects, including a 1.6 GW hydrogen network.
US scientists have reported efficient plasmonic photocatalysis for the production of hydrogen from hydrogen sulfide, with no external heat source. Egypt, meanwhile, has started commissioning Africa’s first integrated green hydrogen plant.
NREL and Berkeley Lab have proposed efficiency and stability best practices for solar water-splitting to make hydrogen, while a team of researchers from Malaysia and Pakistan have revealed their findings on the feasibility of hydrogen-based incineration.
Researchers in Singapore have developed a new light-triggered coupled oxygen evolution mechanism that builds on past oxygen evolution research. Oman, meanwhile, has announced a new hydrogen strategy.
A unit of Svevind has signed an agreement to invest up to $50 billion in a project on the Caspian Sea that could produce up to 2 million tons of green hydrogen per year. Stellantis, meanwhile, has revealed plans to mass produce light commercial hydrogen vehicles.
The Southeast Asian country considers hydrogen as a key potential decarbonisation pathway, seeing business opportunities in three related specific fields: finance, shipping and aviation. Meanwhile, Evos, Hydrogenious, and Port of Amsterdam bet on thermal oil benzyl toluene for delivery of hydrogen before 2028.
Japan’s Penta-Ocean has opened a new factory powered by a 670 kW PV system and fuel cells. Plug Power, meanwhile, has revealed that it will provide fuel cells, hydrogen storage, and fueling infrastructure to FreezPak Logistics.
Tsinghua University researchers have developed a way to combine high-cost platinum and a rare earth element, lanthanum, to serve as a catalyst in fuel cells. Meanwhile, SSAB, LKAB, and Vattenfall have revealed plans to launch industrial production of hydrogen direct reduced sponge iron (H-DRI) by the end of this decade.
Longi is entering the green hydrogen market in India with new alkaline electrolyzer offerings. It also plans to roll out a next-generation Hi-MO solar module later this year.
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