The European Hydrogen Bank’s pilot auction is delivering €720 million ($768.3 million) to seven renewable hydrogen projects in Finland, Norway, Portugal and Spain. Together, they plan to produce 1.58 million tons of renewable hydrogen over a period of 10 years.
Chinese manufacturer Huasun says it has achieved an efficiency of more than 26% for both G12R and G12 heterojunction (HJT) solar cells.
An international research team has developed a new type of perovskite solar cell by using 4-phenyl thiosemicarbazide (4PTSC) as a precursor additive. The device showed an improved open-circuit voltage and “exceptional” long-term stability.
Taiwanese manufacturer Winaico says its new 430 W glass-glass tunnel oxide passivated contact (TOPCon) modules have a power conversion efficiency of 22.02%.
Scientists led by the Massachusetts Institute of Technology (MIT) have designed a new PV-powered desalination system based on the time-variant electrodialysis reversal (EDR) technology. The proposed system reportedly achieves lower levelized cost of water than conventional solar-powered desalination techs.
A team from Germany’s Fraunhofer Institute for Solar Energy Systems has reduced silver consumption in the fabrication of PERC solar cells by screen-printing ultra-fine metallization lines measuring just 14 μm. The resulting solar cell offered remarkable efficiency levels, which were confirmed by Fraunhofer ISE CalLab.
Norwegian Ship Design Co. has agreed to help build what it claims will be the two largest hydrogen ships in the world, while Norwegian Hydrogen has announced plans to team up with Australia’s Provaris Energy on hydrogen export opportunities.
Arctech says it plans to open a 3 GW tracker factory in Saudi Arabia. The tracker manufacturer says the facility in Jeddah will be designed to reach up to 10 GW of capacity.
Alberto Boretti was a senior research professor at Prince Mohammad Bin Fahd University in 2021 when he first started discussing the idea of a hydrogen city in Al Khobar, Saudi Arabia. The New Zealand-based independent tells pv magazine that it is now commercially feasible, as the city’s 200 MW of energy demand would necessitate 1 GW to 1.3 GW of solar and wind capacity, 509 MW to 997 MW of electrolysis capacity, and 145,000 MWh of hydrogen storage capacity.
Researchers at the Delft University of Technology have fabricated an interdigitated back contact and heterojunction solar cell that uses a thin full-area molybdenum oxide layer as a blanket layer. The device reportedly ensures well-passivated gaps between electron and hole collecting regions.
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