HighMag Project Showcased at the Battery Innovation Days in Graz
The HighMag project team held focused and productive days at the Battery Innovation Days (BID) 2025 summit in Graz, Austria. This major European event served as an important platform to showcase the project’s vital, early-stage research into Reversible Magnesium Batteries (RMBs) and their potential contribution to a sustainable energy future. HighMag’s presence focused on […]
HighMag General Assembly Concludes Successfully, Full Steam Ahead for TRL Advancement
PESSAC, France, November 28, 2025 – The HighMag project consortium successfully held its General Assembly Meeting on Thursday, November 27th. The assembly brought partners from across Europe and Israel together to take rigorous stock of technical progress and align strategies for the next critical phase of advancing Reversible Magnesium Battery (RMB) technology. The day […]
HighMag: Strategic Collaboration Advances Europe’s Battery Future
A game-changing strategic partnership has just become official, bringing together three huge Horizon Europe projects: HighMag, ANGeLiC, and TALISSMAN. The goal is clear: to radically speed up the development of Generation 5 battery technology and ensure Europe is the leader in the global move toward clean transport. The three projects teams recently got together to […]
Meet the HighMag Partners: University of Limerick (UL)
“The McNulty Group is based in the Department of Physics and the Bernal Institute at the University of Limerick (UL), Ireland. Our research focuses on the design and synthesis of nanostructured materials for next-generation energy storage systems, with a particular emphasis on metal–sulfur and lithium-ion batteries. We seek to deepen understanding of fundamental redox processes […]
Meet the HighMag Partners: Zentrum Fur Sonnenenergie Und Wasserstoff Forschung Baden Wurttemberg (ZSW)
“With over 30 years of expertise in battery research and development, ZSW advances next-generation magnesium batteries within HighMag. The team explores current collector compatibility with Mg-based powder anodes and assesses how HighMag’s cell designs can fit into existing lithium-ion production lines.” About ZSW The work at the ZSW revolves around the development of eco-friendly […]
Meet the HighMag Partners: Imperial College Of Science Technology and Medicine (ICL)
“The Resilience and Sustainability (R&S) Group in the Department of Civil and Environmental Engineering at ICL leads pioneering work in circularity, sustainability assessment, and digital innovation across critical sectors. The group develops robust frameworks and models for life cycle sustainability assessment (LCSA), integrating environmental (LCA), social (s-LCA), and techno-economic (TEA) analyses, with methodologies aligned with […]
Safety and Sustainability: A Core Promise
Magnesium is inherently safer and far more abundant than lithium, immediately granting these batteries a natural, critical advantage in both safety and sustainability.
Meet the HighMag Partners: CEA
“With CEA expertise, we are helping to support Europe’s sustainable energy future by accelerating the discovery of innovative materials for the next-generation batteries” About CEA The CEA is a key player in research, development and innovation in four main areas: defence and security, low carbon energies (nuclear and renewables), technological research for industry, fundamental […]
Meet the HighMag Partners: Bar Ilan University (BIU)
“BIU develops surface coatings to stabilize Mg particles for manufacturing and safety, and applies atomic layer deposition (ALD) to enhance electrochemical performance.” About BIU Established in 1955, Bar Ilan University (BIU) is one of Israel’s largest universities, marking five consecutive years as the Israeli university with the fastest-growing student population. BIU has achieved an […]
Meet the HighMag Partners: Paul Scherrer Institute (PSI)
“In the “HighMag” project, PSI is leading Work Package 5, which focuses on advanced characterization. Our goal is to perform both ex situ and operando measurements to gain a comprehensive understanding of failure mechanisms and address safety concerns in magnesium metal-based batteries. To achieve this, we will employ state-of-the-art characterization techniques at both the laboratory scale […]