Tag: MOZART Project
To bridge the gap between theory and practice, the NICKEFFECT project applied this iterative Active Learning framework directly to the search for sustainable catalyst materials. By combining Matgenix’s predictive machine learning algorithms with the practical laboratory expertise of the project partners, the team could bypass the slow, traditional "one variable at a time" testing method. Instead of spending months or years blindly tweaking manufacturing settings, the AI systematically mapped out the most promising combinations of material compositions and processing conditions. This streamlined approach was put to the test in the project's first major case study: optimizing a high-performing, cost-effective alternative to scarce precious metals for green hydrogen production.
In large-scale European research initiatives, collaboration is often measured in work packages, milestones, and deliverables. But the true engine of innovation is the exchange of people and ideas. The NICKEFFECT project thrives on this philosophy, proving that cross-border mobility does not just advance materials science—it shapes the next generation of scientific leaders.
The problem of unprecedented volumes of data and the need to reduce devices’ energy consumption
The NICKEFFECT project has successfully validated a transformative approach to High-Temperature Proton Exchange Membrane (HT-PEM) fuel cells, a critical technology for decarbonizing heavy-duty transport, aviation, and shipping. By moving away from costly, "bulk" platinum catalysts, the project has developed an innovative Ni-W/Pt core-shell nanoparticle architecture. This breakthrough replaces the expensive interior of catalyst particles with a low-cost nickel-based alloy, placing platinum only where it is needed: on the active surface. This "atom-efficient" design substantially reduces total platinum content without sacrificing the high-temperature durability or CO tolerance required for industrial use. By proving this technology at scale—moving from lab coupons to 46 cm² large-area electrodes—NICKEFFECT has paved a technically sound and cost-efficient path toward European strategic autonomy, ensuring a sustainable hydrogen economy that is no longer dependent on localized, expensive noble raw materials.
The NICKEFFECT project continues its mission to revolutionise electrocatalysis by replacing scarce and costly platinum with more abundant nickel-based alloys. In the latest instalment of the Young Scientific Talk series, […]
The Power Hunger of the Digital Age The AI revolution is here, but it comes with a hidden cost: a massive surge in energy consumption. As our world becomes increasingly […]