Hong Kong researchers develop ultra stainless steel for green hydrogen

Researchers at King's College London have created a novel aluminum compound that mimics the reactivity of rare metals. The discovery, featuring a unique triangular structure, could enable cheaper and greener chemical processes. Led by Dr. Clare Bakewell, the team published their findings in Nature Communications.

March 16, 2026 An Ruwaito ta hanyar AI

Werner Ponikwar, CEO of Thyssenkrupp Nucera, calls in a guest commentary for more commitment to electrolysis technologies. Diversified energy imports are insufficient to reduce dependency. Electrolysis links renewable electricity to industrial value creation and produces hydrogen as a storable energy carrier.

Commercialisation of hydrogen fuel cell trucks in China has revived optimism in the platinum industry. Northam Platinum CEO Paul Dunne highlighted a Chinese company's fleet of over 20,000 trucks, each using 100 grams of platinum. The development was discussed at a recent PGM conference in Johannesburg.

March 11, 2026 An Ruwaito ta hanyar AI

Researchers at Oak Ridge National Laboratory have developed RidgeAlloy, a new aluminum alloy that transforms contaminated scrap from car bodies into high-performance material for vehicle parts. This innovation addresses recycling challenges posed by impurities, potentially reducing energy use by up to 95 percent compared to primary aluminum production. The breakthrough could enable the reuse of up to 350,000 tons of aluminum scrap annually in North America by the early 2030s.

Researchers at the Norwegian University of Science and Technology believe they have spotted signs of a triplet superconductor in the niobium-rhenium alloy NbRe. This material could transmit both electricity and electron spin without resistance, potentially advancing quantum computing. The finding, if confirmed, might stabilize quantum devices and reduce their energy consumption.

May 03, 2026 An Ruwaito ta hanyar AI

Japanese scientists have created a new spin-flip material that could increase solar panel efficiency by up to 130 percent. The technology also holds potential for OLED displays and lighting systems. Details emerged in recent reports on advancements in photovoltaic materials.