When the topic of ‘electrolysis’ is mentioned, people typically think of just splitting plain old dihydrogen monoxide (hydric acid: H 2 O) into its constituent atoms, but this barely scratches the ...
Splitting hydrogen from water molecules via electrolysis requires energy, which ideally comes from renewable energy sources.
Designing optimized catalysts that use least amount of iridium has been a challenge. Water electrolysis offers an ideal process for hydrogen production, which could play a key role in the global ...
A research team has developed a high-efficiency electrochemical system that simultaneously produces hydrogen and value-added chemicals using glycerol, a low-cost, abundant byproduct of biodiesel ...
Green hydrogen is a crucial component in the global effort to decarbonize hard-to-abate sectors, like long-haul transportation, construction, and manufacturing. A process first discovered in the early ...
Scientists have pioneered a novel approach to water electrolysis catalysts for green hydrogen production. Originally, the term "Sherpa" denoted a hill-tribe of Tibetan descent, but it has since become ...
The race for green hydrogen dominance is on, with global markets ramping up the scale of their ambition in terms of deployment. But this too is causing a further fight for market share among the three ...
Electrolysis is a key component of the cost of green hydrogen, and a Korean team says it's made a huge breakthrough with an anion exchange membrane that's not only cheaper than current proton exchange ...
A groundbreaking article published in Nano-Micro Letters provides a comprehensive blueprint for accelerating green-hydrogen production. Authored by Siyu Ye from Guangzhou University, the study ...
The sustainable production of hydrogen could potentially be made more efficient by adding a cleverly chosen salt to the process. Researchers at the Leiden Institute of Chemistry (LIC), in ...
Green hydrogen could be a game-changer for the clean energy transition—but right now, it’s too expensive and still relies on harmful “forever chemicals.” A new EU-backed project called SUPREME aims to ...
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